Post

Associate Professor

Academic career

2003-2007

East China Normal University

Bachelor's degree of Applied Chemistry

2007-2012

East China Normal University

Doctor's degree of Analytical Chemistry

Employment

2017-

2012–2017

Associate   Professor, Department of Chemistry, University of Shanghai for Science and Technology

Lecturer,   Department of Chemistry, University of Shanghai for Science and Technology

Research and development projects over the last 5   years

· 2016.01-2018.12, National Natural Science   Foundation of China (NO. 21505092)

Industry   collaborations over the last 5 years

“Patents and proprietary rights

Important   publications

· Paper-based immunosensors: current trends   in the types and applied detection techniques. Trends in Analytical   Chemistry. 2019, 111, 100-117.

· Highly sensitive electrochemical   immunoassay integrated with polymeric nanocomposites and enhanced SiO₂@Au   core-shell nanobioprobes for SirT1 determination. Analytica Chimica Acta.   2017, 966, 54-61.

· Sirtuin 1 evaluation with a novel   immunoassay approach based on TiO₂-Au label and hyperbranched   polymer hybrid. Analytical Biochemistry. 2016, 507, 58-65.

· Sensitive electrochemical cytosensor based   on biocompatible Au@BSA conductive architecture and lectin-modified   nanoprobe. Journal of the Electrochemical Society. 2016, 163, B242-B247.

· A ternary nanooxide NiO-TiO₂-ZrO₂/SO₄^2-   as efficient solid superacid catalysts for electro-oxidation of   glucose. Electrochimica Acta. 2016, 194, 367-376.

· A ternary nanocatalyst of Ni/Cr/Co oxides   with high activity and stability for alkaline glucose electrooxidation.   Electrochimica Acta. 2016, 192, 296-302.

· Electrocatalytic glucose oxidation via   hybrid nanomaterial catalyst of multi-wall TiO₂ nanotubes   supported Ni(OH)₂ nanoparticles: Optimization of the loading   level. Electrochimica Acta. 2015, 160, 263-270.

· A TiO₂-Au–polymer hybrid system for   the photoelectrochemical immunoassay of SirT. Journal of Materials Chemistry   B. 2014, 2, 1644-1652.

· Sensitive electrochemical immunosensor for a-synuclein based on   dual signal amplification using PAMAM dendrimer-encapsulated Au and enhanced   gold nanoparticle labe. Biosensors and Bioelectronics. 2012, 32, 224-230.

· A photoelectrochemical immunosensor based   on Au-doped TiO₂ nanotube arrays for the detection of a-synuclein.   Chemistry-A European Journal. 2010, 16, 14439-14446.

Activity in professional associations within the   last five years

· Membership of China Chemical Society

Post

Professor

Academic career

1979-1983

Shanxi   University

Bachelor's   degree of Chemistry

2004-2010

Taiyuan   University of Technology

Doctor's   degree of Chemistry Technology

Employment

1983-2009

Jinzhong   University

Lecturer,   associate professor, professor

2009-

University   of Shanghai for Science and Technology

professor

Research and development projects over the last 5   years

· The interaction mechanism between vitrinite   and inertinite in coal pyrolysis and direct liquefaction.Period:2012-   2016.(National Natural Science Foundation of China).

Industry   collaborations over the last 5 years

“Patents and proprietary rights

Important publications

· Interaction of vitrinite and inertinite of   Bulianta coal in pyrolysis. Fuel. 2017, 207, 643-649.

· Pyrolysis interaction between vitrinite and   inertinite from Chinese Wucaiwan coal.   Journal of Fuel Chemistry and Technology. 2015, 24, 405-418.

Activity in professional associations within the   last five years

Post

Lecturer

Academic career

2010-2014

Zhengzhou   University

Bachelor's   degree of Applied Chemistry

2014-2019

Fudan   University

Doctor's   degree of Physcial Chemistry

Employment

2019-

University   of Shanghai for Science and Engineering

Lecturer

Research and development projects over the last 5   years

· Research on the design of catalyst   materials, electrolyte’s optimization and electrolyte/electrode interface   stability of lithium-oxygen batteries. Period:2014-2019 (Fudan University,   National Major Scientific Research Program”973 Program”)

· Study on in Situ infrared Characterization   Method in organic electrolyte system.Period:2016-2019 (Fudan University).

· Cooperated with the research team members   of Si/C anode, to modify its ion and electronic conductance   Period:2016-2017(Fudan University).

Industry   collaborations over the last 5 years

“Patents and proprietary rights

l One method to synthesize transition metal   sulfide cathode for Li-O₂ batteries, Patent code: CN107086304A.

l One method to synthesize metal oxides   coated spinel LiMn₂O₄, Patent code:CN2016111853045.

l A method for preparing carbon nanotube   composite porous silicon anode for li-ion battery, Patent code:   201610567050.7.

l One low-cost method to synthesize LiVPO₄F   cathode, Patent code: 201610174101.X.

Important   publications

l A new type of cyclic silicone additive for   improving the energy density and power density of Li–O₂   batteries. Journal of Materials   Chemistry, A. 2018, 6, 7221-7226.

l Improving rate capability and reducing   over-potential of lithium-oxygen batteries through optimization of   dimethylsulfoxide-N/N-dimethylacetamide mixed electrolyte. Electrochimica   Acta. 2017, 243, 357-363.

l Structure and catalyst effects on the   electrochemical performance of air electrodes in lithium-oxygen batteries.   ChemElectroChem. 2018, 5, 2666-2671.

Activity in professional associations within the   last five years

l The 18^th National   Electrochemical Conference, Harbin (2015)

l the 58^th Battery Symposium in   Japan (2017)

l 69^th Annual Meeting of the   International Society of Electrochemistry, Italy, (2018)

Post

Assistant experimentalist

Academic career

2008-2012

Tongji   University

Bachelor's   degree of Applied Chemistry

2012-2015

Tongji   University

Master's   degree of Analytical chemistry

2018-

Shanghai   Institute of Mechanical Engineering

Doctor's   degree of Biomedical Engineering

Employment

2015-

University of Shanghai for Science and Technology Assistant experimentalist

Research and development projects over the last 5   years

Industry   collaborations over the last 5 years

“Patents and proprietary rights

Important   publications

· The Construction and Analysis of Cu²⁺   Electrochemical Sensor. Guangzhou Chemical Industry.2014,   42, 70-71.

· Exploration of Comprehensive Innovation   Teaching Mode in Instrumental Analysis Laboratory Course. Guangzhou Chemical   Industry. 2020, 48, 137-138.

Activity in professional associations within the   last five years

Post

lecturer

Academic career

2007-2011

Yantai University

Bachelor's   degree of Chemical Engineering   and Technology

2011-2016

Beijing   University of Chemical Technology

Master's   and Doctor's degree of Chemical   Engineering and Technology

Employment

2016-2019

National   Center for Nanoscience and Technology

Postdoctor

2019-

University   of Shanghai for Science and Technology

Lecturer

Research anddevelopmentprojects over thelast 5 years

Industrycollaborationsover   the last 5years

“Patents andproprietary rights

Importantpublications

l The Effect of Phenylalanine Ligands on the   Chiral-Selective Oxidation of Glucose on Au(111). Nanoscale. 2020, 12, 3050-3057.

l Photocatalytic pure water splitting with   high efficiency and value by Pt/Porous brookite TiO₂ nanoflutes.   Nano Energy. 2020, 67, 104287.

l Heat and mass transfer characteristic of   vertical falling film generator with annular structure for ammonia-water   system. Journal of Renewable and Sustainable Energy. 2019, 11, 064701.

l MOF-derived nitrogen-doped nanoporous   carbon for electroreduction of CO₂ to CO: the calcining   temperature effect and the mechanism. Nanoscale. 2019, 11, 4911-4917.

l 2D chiroptical nanostructures for   high-Performance photooxidants. Advanced Functional Materials. 2018, 1707237.

l Ultrasmall CoP nanoparticles as efficient   cocatalysts for photocatalytic formic acid dehydrogenation. Joule. 2018, 2,   1-9.

l Theoretical insights into the interaction   between Ru_nPt_13-n (n=4, 7 and 9) clusters and [Bmim]⁺   based ionic liquids: effect of anion. Journal of Molecular Graphics &   Modelling. 2017, 74, 117-124.

l Heterodimers made of upconversion   nanoparticles and metal-organic frameworks. Journal of the American Chemical   Society. 2017, 139, 13804-13810.

l Ru₅₅ nanoparticles catalyze the   dissociation of H₂O monomer and dimer to produce hydrogen: A   comparative DFT study. International Journal of Hydrogen Energy. 2016, 41,   3844-3853.

l First-principle investigation of the   interactions between Pt_xRu_55–x(x= 0, 13, 42, 55)   nanoparticles and [BMIM][PF₆] ionic liquid. Chemical Physics.   2015, 452, 1-8.

l First-principles investigation of thiophene   adsorption on Ni₁₃ and Zn@Ni₁₂ nanoclusters.   Computational and Theoretical Chemistry. 2013, 1020, 136-142.

Activity inprofessionalassociations withinthe last   five years

Post

Lecturer

Academic career

2008-2012

Jiangxi   Normal University

Bachelor's   degree of Applied Chemistry

2012-2018

Fudan   University

Doctor's   degree of Organic chemistry

Employment

2019-

University   of Shanghai for Science and Technology

Lecturer

Research and development projects over the last 5   years

l Preparation   and application of novel metal N-heterocyclic carbene nano-catalyst. Period:   2015- 2017(participated in the Natural Science Fundation projects)

l The   design, preparation of metal N-heterocyclic carbene micro-nano structure   molecular catalysts and application in biomass conversion. Period: 2015-   2018(participated in the Natural Science Fundation projects)

l Preparation   of Novel Magnetic Mesoporous Nanoparticle Supported-Palladacycle Catalysts   and Application in the Coupling Reactions Involving Inert Bonds. Period:   2019- 2020 (Innovation Plan of USST projects)

Industry   collaborations over the last 5 years

“Patents and proprietary rights

l Cu (II) metal-organic complex small   molecule hydrogel and its application. Patent code：ZL201210469280.1。

l A method for the synthesis of tamibalotin   catalyzed by acenaphthene heterocyclic carbinyl allyl chloride palladium   compound. Patent code：ZL   201310261167.9

Important   publications

l A magnetic nanoparticle-supported   N-heterocyclic carbene-palladacycle: an efficient and recyclable solid   molecular catalyst for suzuki–miyaura cross-coupling of 9-chloroacridine.   Chemical Communications. 2017, 53, 13063-13066.

l Robust acenaphthoimidazolylidene   palladacycles: highly efficient catalysts for the amination of N-heteroaryl   chlorides. Chemistry—An Asian   Journal. 2017, 12, 2364-2368.

l Highly efficient aminocarbonylation of   iodoarenes at atmospheric pressure catalyzed by a robust   acenaphthoimidazolyidene allylic palladium complex. Organic Letters. 2013, 15, 3678-3681.

l Acenaphthoimidazolylidene gold   complex-catalyzed alkylsulfonylation of boronic acids by potassium   metabisulfite and alkyl halides: a direct and robust protocol to access   sulfones. ACS Catalysis.   2017, 7, 4655-4659.

l Pd(NHC)-catalyzed alkylsulfonylation of   boronic acids: a general and efficient approach for sulfone synthesis.   Chemical Communications. 2017, 53, 12473-12476.

l One-pot bimetallic Pd/Cu-catalyzed   synthesis of sulfonamides from boronic acids, DABSO and O-Benzoyl   hydroxylamines. Chemistry—An Asian   Journal. 2017, 12, 706-713.

l Copper-catalyzed electrophilic amination of   sodium sulfinates at room temperature. Chemical Communications. 2015, 51,   16573-16576.

l Efficient and scalable Pd-catalyzed double   aminocarbonylations under atmospheric pressure at low catalyst loadings.   Organic Chemistry Frontiers. 2014, 1, 1261-1265.

l Design and development of ligands for   palladium-catalyzed carbonylation reactions. Synthesis. 2014, 46, 1689-1708.

Activity in professional associations within the   last five years

Post

Associate Professor

Academic career

1995-1999

B.S., Department of Chemistry, East China Normal   University

2001-2004

M.S., Department of Chemistry, East China Normal   University

2004-2007

Ph.D., Department of Chemistry, East China Normal   University

Employment

1999-2001

2007-

No.1 High School Affiliated to Tongji University,   chemistry teacher

University of Shanghai for Science and Engineering

Lecturer, associate professor

Research and development projects over the last 5   years

l 2017.01-2019.12, National Natural Science   Foundation of China (NO. 21603143)

l 2016.01-2018.12, National Natural Science   Foundation of China (NO. 21505092)

Industry   collaborations over the last 5 years

“Patents and proprietary rights

Important   publications

l TiO₂-SnO₂/SO₄^2-   mesoporous solid superacid decorated nickel-based material as efficient   electrocatalysts for methanol oxidation reaction. Electrochimica Acta. 2019,   297, 864-871.

l Paper-based immunosensors: current trends   in the types and applied detection techniques. Trends in Analytical   Chemistry. 2019, 111, 100-117.

l A ternary nanooxide NiO-TiO₂-ZrO₂/SO₄^2-   as efficient solid superacid catalysts for electro-oxidation of   glucose. Electrochimica Acta. 2016, 194, 367–376.

l A ternary nanocatalyst of Ni/Cr/Co oxides   with high activity and stability for alkaline glucose electrooxidation.   Electrochimica Acta. 2016, 192, 296-302.

l Lectrocatalytic glucose oxidation via   hybrid nanomaterial catalyst of multi-wall TiO₂ nanotubes   supported Ni(OH)₂ nanoparticles: _Optimization of the   loading level, Electrochimica Acta. 2015, 160, 263-270.

l Synthesis of bimetallic Ni-Cr nano-oxides   as catalysts for methanol oxidation in NaOH Solution. Journal of Nanoscience   and Nanotechnology. 2015, 15, 3743-3749.

Activity in professional associations within the   last five years

Post

Associate Professor

Academic career

2008-2013

2004-2008

M.S.   & PhD in Inorganic Chemistry, Changchun Institute of Applied Chemistry,   Chinese Academy of Sciences, China.

B.Sc.   Chemistry, College of Chemistry and Chemical Engineering, Lanzhou University,   China.

Employment

2013–2016

Lecturer,   Department of Chemistry, University of Shanghai for Science and Technology   (USST).

2016–

Associate   Professor, Department of Chemistry, USST.

Research and development projects over the last 5   years

● National   Natural Science Foundation of China, Period: 2015-2017 (NO. 21401130).

Industry   collaborations over the last 5 years

Patents and proprietary rights

Important   publications

l Novel ratiometric optical thermometry based   on dual luminescent centers from europium doped LiCa₃MgV₃O₁₂   phosphor. Ceramics International. 2019, 45, 16651-16657.

l Energy transfer and color tunable emission   in Tb³⁺, Eu³⁺ co-doped Sr₃LaNa(PO₄)₃F   phosphors. Spectrochimica Acta Part A: Molecular and Biomolecular   Spectroscopy. 2018, 190, 246-252.

l Triple energy transfer and color tuning in   Tb³⁺ and Eu³⁺-coactivated apatite-type   gadolinium-containing phosphors. Optical Materials. 2017, 73, 570-576.

l Photoluminescence properties of   whitlockite-type Ca₉MgK(PO₄)₇: Eu²⁺,   Mn²⁺ phosphor. Journal of   Luminescence. 2016, 179, 328-333.

l Structure and photoluminescence studies on   europium and manganese-substituted eulytite-type orthophosphate phosphors.   New Journal of Chemistry. 2015, 39, 9951-9957.

l Color tuning and energy transfer in Eu²⁺/Mn²⁺-doped   Ba₃Y(PO₄)₃ eulytite-type orthophosphate   phosphors. RSC Advances. 2015, 5, 46517-46524.

l White-emitting tuning and energy transfer   in Eu²⁺/Mn²⁺-substituted apatite-type fluorophosphate   phosphors. The Journal of   the American Ceramic Society. 2015, 98, 1162-1168.

l A Eu²⁺ and Mn²⁺-coactivated   fluoro-apatite-structure Ca₆Y₂Na₂(PO₄)₆F^-₂   as a standard white-emitting phosphor via energy transfer. Dalton   Transactions. 2014, 43, 12373-12379.

l A direct warm-white-emitting Sr₃Sc(PO₄)₃:   Eu²⁺, Mn²⁺ phosphor with tunable photoluminescence via   efficient energy transfer. Dalton Transactions. 2013, 42, 5649-5654.

l Eu²⁺ & Mn²⁺-coactivated   Ba₃Gd(PO₄)₃ orange-yellow-emitting phosphor   with tunable color tone for UV-excited white LEDs. ChemPhysChem. 2013, 14, 192-197.

l Warm-white-emitting from Eu²⁺/Mn²⁺-codoped   Sr₃Lu(PO₄)₃ phosphor with tunable color tone   and correlated color temperature. Journal of Physical Chemistry C. 2012, 116,   1329-1334.

l A tunable single-component warm white-light   Sr₃Y(PO₄)₃: Eu²⁺, Mn²⁺   phosphor for white-light emitting diodes. Physical Chemistry Chemical   Physics. 2011, 13, 15077-15082.

l Ca₉Lu(PO₄)₇:   Eu²⁺, Mn²⁺: A potential single-phased   white-light-emitting phosphor suitable for white-light-emitting diodes.   Inorganic Chemistry. 2010, 49, 10907-10913.

l Optical properties and energy transfer of   NaCaPO₄:Ce³⁺, Tb³⁺ phosphors for potential   application in light-emitting diodes. European Journal of Inorganic   Chemistry. 2010, 4636-4642.

Activity in professional associations within the   last five years

● Membership   of China Chemical Society

Post

Lecturer

Academic career

2008-2012

Dalian Polytechic University

Bachelor,   Applied Chemistry

2012-2017

East   China University of Science and Technology

Ph.D.,   Physical Chemistry

Employment

2017-2019

Post-doctor,   Materials science, Fudan University

2019-Now

College   of Science, University of Shanghai for Science and Technology

Research and development projects over the last 5   years

l Design   and synthesis of boron-based catalytic materials for efficient overall water   splitting.

l 2017.09-2019.06, The China Postdoctoral   Science Foundation (NO. KLH2021056) First-Class

l Design   and synthesis the pH-sensitive biomaterials for intelligent drug delivery.   The biomaterials which include liposomes, micelles, mesoporous silica, etc.

Industry   collaborations over the last 5 years

“Patents and proprietary rights

l The   preparation method of the high-efficient non-metal of electrode. Patent code:   CN108624907A.

l The preparation method of high-efficiency, dual-function   catalytic electrode for water electrolysis. Patent code: CN108624907A.

Important   publications

l Photothermal coupling electrolysis on Ni-W-B toward   practical overall water splitting. Journal of Materials Chemistry A. 2019, 7, 12440-12445.

l Electroless plating of highly efficient bifunctional   boride-based electrodes towards practical overall water splitting. Advanced   Energy Material. 2018,   1801372.

l Dual-stimuli   responsive upconversion nanomaterials under host-guest for assembly and drug   delivery. Colloids and Surfaces A. 2018.   537, 446451.

l Versatile   fluorescence and pH-trigger micelle nanopartical for target drug delivery. Microchimica   Acta. 2017,   184, 2881-2891.

Activity in   professional associations within the last five years

l East   China University of Science and Technology - Titan Exploration Paper   Scholarship

l East   China University of Science and Technology High Quality Paper Scholarship

Post

Associate Professor

Academic career

2000-2004

Nanjing   University of Aeronautics and Astronautics

Bachelor   of Science, major in Applied Chemistry

2004-2007

Nanjing   University of Aeronautics and Astronautics

Master   of Engineering, major in Applied Chemistry

2007-2011

Nanjing   University

Doctor   of Science, major in Analytical Chemistry

Employment

2008-2010

Joint Ph.D.   student, Chemistry Department,

Pro.Clemens Burda   group, Case Western Reserve University, USA

2016-2017

Visiting scholar,   Chemistry Department,

Pro.Yugang Sun   group, Temple University, USA

2011-

Faculty, College of   Science

University of   Shanghai for Science and Technology, CHN

Research and development projects over the last 5   years

l Study on quantum dots sensitized solar cells.   01/2015-12/2017 National Natural Science Foundation of China (21405105);

l The research focused on quantum dots sensitized   photoelectrodes for solar-electric   conversion. 06/2014-06/2017 Shanghai Natural Science foundation   (14ZR1429300);

l The research focused on quantum dots sensitized   TiO₂ based photoelectrodes. 09/2013-09/2014 State Key Laboratory   of Analytical Chemistry for Life Science (SKLACLS1310);

l The research   focused on TiO₂ based photoelectrodes for photovoltaic   performance. 09/2012-09/2013 Shanghai Young College Teachers Training Project   (SLG12022);

l The research focused on TiO₂   based photoelectrodes for photocatalytic performance. 01/2017-01/2019 Key   Laboratory of Green Catalysis of Sichuan Institutes of Higher Education   (LZJ1703).

Industry   collaborations over the last 5 years

“Patents and proprietary rights

Important   publications

· In-situ   preparation of P, O co-doped carbon spheres for high energy density   supercapacitor. Journal of Applied Electrochemistry. 2019, 49, 599-607.

· Enhanced   electrochemical performance and high voltage window for supercapacitor based   on multi-heteroatom modified porous carbon materials. Chemical Communication.   2019, 55, 1486.

· High mass loading   and high-density flower-like NiCo2O4 nanosheets on Ni foam for superior   capacitance. Chemical Communication. 2019, DOI: 10.1039/C9CC04135D.

· Superior   capacitive performance enabled by edge-oriented and interlayer-expanded MoS2   nanosheets anchored on reduced graphene oxide sheets. Industrial & Engineering   Chemistry Research, 2018, 57, 4571-4576.

· Nanoporous   alumina thin films with interpenetrated structure via alternating voltage   anodization. Materials Letters. 2018, 233, 181-183.

Activity in professional associations within the   last five years

· Chinese chemical   society (CCS), Fellow since 2016

· Reviewer for Chemical   Communications; RSC Advance; Materials Letters; Ultrasonics Sonochemistry; Journal of Raman Spectroscopy;   Nanoscience and Nanotechnology Letters, etc.

Post

Experimenter

Academic career

2006-2010

Taiyuan   Normal University

Bachelor of Science of   Chemistry

2010-2013

Shanxi   University

Master`s Degree of Chemistry

2017-

University of Shanghai for Science and   Technology

Doctor's   degree of Biomedical Engineering

2013-

University   of Shanghai for Science and Engineering

Experimenter

Research and development projects over the last 5   years

l Nanoparticle   self-assembly: the controllable self-assembly of nanoparticles (magnetic   particles, silica gel particles, rare earth fluorescent particles or drug   nanoparticles, etc.) and the in-situ formation of composite shells are   realized on the surface of the micro nano core with various micro nano   particles as templates and various polymer coating layers as guidance;

l Surface   modification of composite nanoparticles: develop a series of surface   modification reagents, establish inert surface modification methods of composite   micro nano materials with rich special functional groups and good   biocompatibility coating (polyethylene glycol, dextran, etc.);

l Biomolecular   grafting of composite micro nano materials: to develop an effective surface   functionalization scheme to link antibody, gene, some drug molecules and   other biological target molecules; to carry out the application research of   micro nano biotechnology materials.

Industry   collaborations over the last 5 years

“Patents and proprietary rights

Important publications

l Photoluminescence   properties of whitlockite-type Ca₉MgK(PO₄)₇:Eu²⁺,Mn²⁺   phosphor. Journal of   Luminescence. 2016, 179,   328-333.

l A Eu²⁺   and Mn²⁺-coactivated fluoro-apatite-structure Ca₆Y₂Na₂(PO₄)₆F₂   as a standard white-emitting phosphor via energy transfer. Dalton Transactions. 2014, 43, 12373-12379.

l Color   tuning and energy transfer in Eu²⁺/Mn²⁺-doped Ba₃Y(PO₄)₃   eulytite-type orthophosphate phosphors. RSC   Advances. 2015, 5, 46517-46524.

l White-emitting   tuning and energy transfer in Eu²⁺/Mn²⁺-substituted apatite-type   fluorophosphate phosphors. New Journal of   Chemistry. 2015, 98, 1162-1168.

Activity in professional associations within the   last five years

Post

Lecturer

Academic career

2006-2010

Shandong University

Bachelor's degree of Chemical Engineering and   Technology

2010-2016

University of Chinese Academy of Sciences

Doctor's degree of Chemical Engineering and Technology

Employment

2021-

2016–2021

Lecturer,   Department of Chemistry, University of Shanghai for Science and Technology

Lecturer,   College of Engineering, Nanjing Agricultural University

Research and development projects over the last 5   years

l 2019.01-2021.12,   National Natural Science Foundation of China (NO. 21802073)

l 2017.07-2020.06,   Natural Science Foundation of Jiangsu Province (BK20170707)

Industry   collaborations over the last 5 years

“Patents and proprietary rights

l Nickel catalyst and synthesis method for   5-hydroxymethylfurfural hydrogenation, 2018, CN 105289619 B.

Important   publications

l Synthesis of   graphene-like carbon from biomass pyrolysis and its applications. Chemical   Engineering Journal. 2020,   399, 125808.

l Catalytic   conversion of 5-hydroxymethylfurfural to some value-added derivatives. Green   Chemistry.   2018, 20, 3657-3682.

l Inclusion of   Zn into metallic Ni enables selective and effective synthesis of   2,5-dimethylfuran from bio-derived   5-hydroxymethylfurfural. ACS Sustainable Chemistry & Engineering. 2017, 5, 11280-11289.

l Production   of biofuels and chemicals with bifunctional catalysts. Biofuels and   Biorefineries. 2017, ISBN978-981-10-5136-4.

l Nanoparticles   inlaid nickel phyllosilicate as a metal–acid bifunctional catalyst for   low-temperature hydrogenolysis reactions. ACS Catalysis. 2015, 5,5914-5920.

l Rational design of Ni-based catalysts   derived from hydrotalcite for selective hydrogenation of   5-hydroxymethylfurfural. Green Chemistry. 2015, 17, 2504-2514.

l Switchable synthesis of 2,5-dimethylfuran   and 2,5-dihydroxymethyltetrahydrofuran from 5-hydroxymethylfurfural over   Raney Ni catalyst. RSC Advances. 2014,   4, 60467-60472.

l Effect of Al₂O₃ addition   on the catalytic performance of Co/SiC catalyst for Fischer-Tropsch   synthesis. Journal of Fuel Chemistry and Technology. 2013, 10, 1217-1222.

Activity in professional associations within the last   five years

Review   editor of “Frontiers in Chemical Engineering”

Post

Associate Professor

Academic career

2003–2007

Nanjing   Tech University

Bachelor's   degree of Light Chemical Engineering

2007–2013

Shanghai   Jiao Tong University

Doctor's   degree of Applied Chemistry

Employment

2013–2015

Leibniz   Institut für Katalyse (Germany), Postdoc

2015–2018

National   University of Singapore, Postdoc

2018–Present

University   of Shanghai for Science and Technology

Associate   Professor

Research and development projects over the last 5   years

l Studies   on the construction of functionalized four-carbon substituted olefins by   nickel-catalyzed three-component coupling reaction of alkynes.Period:   2020–2022 (National Natural Science Foundation).

Industry   collaborations over the last 5 years

l Participate   in the Joint Research Program with Jiangsu Jinghua Pharmaceutical Group CO.,   Ltd

l Joint   research workshop on electronic chemicals with Shanghai Huayi Group

l Membership   of the Creation Team of Zhejiang ChengDa Pharmaceuticals Co.,Ltd

“Patents and proprietary rights

N/A

Important   publications

· Nickel-catalyzed allylmethylation of alkynes using allylic alcohols   and alme₃: a facile access to skipped dienes and trienes. Angewandte Chemie International   Edition. 2020, 59, 14404–14408.

· Ru-catalyzed chemo- and enantioselective hydrogenation of β-diketones assisted by the   neighboring heteroatoms. Organic Letters. 2019, 21, 5509–5513.

· Ni-Catalyzed Denitrogenative Cross-Coupling of Benzotriazinones and   Cyclopropanols: An Easy Access to Functionalized β-Aryl Ketones. Organic Letters. 2020, 22, 5020–5024.

· Nickel-catalyzed difunctionalization of allyl moieties using   organoboronic acids and halides with divergent regioselectivities. Chemical   Science. 2018, 9, 600–607.

· A decennary journey towards the efficient asymmetric hydrogenation of   highly functionalized ketones. Chemical Record. 2016, 16, 2506–2520.

· In transition metal catalyzed carbonylative synthesis of heterocycles.   Springer International Publishing: 2016, 42, 55–87.

· The applications of (para)formaldehyde in metal-catalyzed organic   synthesis. Advanced Synthesis & Catalysis. 2015, 357, 3393–3418.

· A practical and general base-catalyzed carbonylation of amines for the   synthesis of n-formamides. Chemistry-A   European Journal. 2015, 21, 14943–14948.

· N₂ extrusion and co insertion: a novel palladium-catalyzed   carbonylative transformation of aryltriazenes. Organic Letters. 2015, 17,   1910–1913.

· Palladium-catalyzed carbonylative sonogashira coupling between aryl   triazenes and alkynes. Organic &   Biomolecular Chemistry. 2015, 13, 5090–5093.

· Palladium-catalyzed aminocarbonylation of n-chloroamines with boronic   acids. Chemistry-A European Journal. 2015, 21, 7374–7378.

· Ruthenium-catalyzed conjugate hydrogenation of α,β-enones by in situ   generated dihydrogen from paraformaldehyde and water. European Journal of Organic Chemistry.   2015, 2015, 331–335.

· Palladium-catalyzed carbonylative synthesis of benzoxazinones from   n-(o-bromoaryl)amides using paraformaldehyde as the carbonyl source. The Journal of Organic Chemistry. 2014, 79,   10410–10416.

Activity in professional associations within the   last five years

l 2016   Best Poster Prize of the 14^th International Symposium of Chinese   Organic Chemists

l 2015   Poster Presentation at the 18^th IUPAC International Symposium on   Organometallic Chemistry Directed Towards Organic Synthesis (OMCOS 18)

Post

Associate Professor

Academic career

2004-2006

Nanjing   Xiaozhuang University

Bachelor's   degree of Analysis

2006-2011

Nanjing   Tech University

Doctor's   degree of Applied Chemistry

Employment

2011-2012

North   Dakota State University (USA), Post doctor

2012-2015

Fudan   University, Post doctor

2015-

University   of Shanghai for Science and Technology

Post   doctor, Lecturer, Associate professor

Research and development projects over the last 5   years

l Upconversion nanophosphors for the   application of hypoxia tumor imaging in vivo. Period: 2013-2015   (China Postdoctoral Science Foundation).

l Multi-model imaging guided Bi₂S₃   nano-materials for the application of tumor therapy. Period: 2015-2017 (China   Postdoctoral Science Foundation).

l The study of bismuth based nano-materials   for the tumor multi-model theranostic application. Period: 2016-2017 ( China   Postdoctoral Science Foundation)

l Nano-structured Pt and Ir complexes for   hypoxia tumor imaging based on time-resolved detection technique. Period:   2016-2018 ( Nature Science Foundation of China)

l The application study of Fenton reaction   based on bismuth nanomaterials for the hypoxic tumor synergistic therapy.   Period: 2019-2022 ( Natural Science Foundation of   Shanghai)

Industry   collaborations over the last 5 years

l Shanghai Proton and Heavy Ion Center

“Patents and proprietary rights

l Synthesis method and application   on preventing and controlling plant diseases and insect pests containing   heterocyclic ketone in N-substituted phenyl pyrazole derivatives. Patent   code: ZL   201010221898.7 (2012)

Important   publications

l Ultrafast synthesis of fluorine-18 doped   bismuth based upconversion nanophosphors for tri-modal CT/PET/UCL imaging in   vivo. Chemical Communication. 2019, 55, 7259-7262.

l An AEE-active probe combined with   cyanoacrylate fuming for a high resolution fingermark optical detection. Sensors And Actuators B-Chemical. 2019, 283,   99-106.

l A near-infrared frequency upconversion   probe for nitroreductase detection and hypoxia tumor in vivo imaging. Sensors   And Actuators B-Chemical. 2019, 286, 337-345.

l SiO₂ encapsulated   nanofluorophor: Photophysical properties, aggregation induced emission and   its application for cell mitochondria imaging. Dyes Pigments. 2017, 139,   110-117.

l A cation-exchange controlled core–shell   MnS@Bi₂S₃ theranostic platform for multimodal imaging   guided radiation therapy with hyperthermia boost. Nanoscale. 2017, 9,   14364-14375.

l Ultrasensitive near-infrared   fluorescence-enhanced probe for in vivo nitroreductase imaging. Journal of the   American Chemical Society. 2015, 137 (19), 6407-6416.

l Effects of Extended π‑Conjugation in   Phenanthroline (N^∧N) and Phenylpyridine (C^∧N) Ligands   on the Photophysics and Reverse Saturable Absorption of Cationic Heteroleptic   Iridium(III) Complexes. The   Journal of Physical Chemistry C. 2014, 118, 6372-6384.

· Synthesis and Photophysics of Reverse   Saturable Absorbing Heteroleptic Iridium(III) Complexes Bearing   2-(7-R-Fluoren-2'-yl)pyridine Ligands. Dalton transactions. 2014, 43,   1724-1735.

Activity in professional associations within the   last five years

l 2018, the second prize in young teachers'   teaching competition of USST

Post

Professor

Academic career

2008-2012

Anhui   University of Technology

Double   Bachelor's degree of Materials Science and Engineering & Computer Science   and Technology

2012-2015

Shanghai   Normal University

Master's   degree of Industrial Catalysis

2015-2018

Kyoto   University

Doctor's   degree of Chemistry

Employment

2018-2019

Institute   for Chemical Research, Kyoto University

JSPS   research fellow PD and Postdoctor

2020-

University   of Shanghai for Science and Engineering

Professor

Research and development projects over the last 5   years

l Near Infrared Light-Induced Plasmonic Hole   Transfer in Heterostructured Semiconductor Nanocrystals. Period: 2017-2019   (JSPS Research Fellowship for Young Scientists, Japan).

Industry   collaborations over the last 5 years

“Patents and proprietary rights

● G-C₃N₄   quantum dots modified titanium dioxide nanotube catalyst and preparation   method and application. Patent code: CN103657699B (2016).

● Platinum   in situ modified Ti³⁺/TiO₂ photocatalyst, its   preparation method and application. Patent code: CN104941632B (2017)

● A   kind of titania nanowire array film and its preparation and application in   energy storage and hydrogen production. Patent code: CN104475073B (2017).

Important   publications

l Near   infrared light induced plasmonic hot hole transfer at a nano-heterointerface.   Nature Communications. 2018, 9: 2314.

l Plasmonic   p–n junction for infrared light to chemical energy conversion. Journal of the   American Chemical Society. 2019, 141, 2446-2450.

l Anomalous   photoinduced hole transport in type I core/mesoporous-shell nanocrystal for   efficient photocatalytic H₂ evolution. ACS Nano. 2019, 13,   8356-8363.

l Durian-shaped   CdS@ZnSe core@mesoporous-shell nanoparticles for efficient and sustainable   photocatalytic hydrogen evolution. The Journal of Physical Chemistry Letters.   2018, 9, 2212-2217.

l Nanotube-confinement   induced size-controllable g-C₃N₄ quantum dots modified   single-crystalline TiO₂ nanotube arrays for stable synergetic   photoelectrocatalysis. Nano Energy. 2016, 19, 446-454.

l Pt-enhanced   mesoporous Ti³⁺/TiO₂ with rapid bulk to surface   electron transfer for photocatalytic hydrogen evolution. Hydrogen Evolution.   ACS Applied Materials & Interfaces. 2017, 9, 16959-16966.

l C₆₀-decorated   CdS/TiO₂ mesoporous architectures with enhanced photo-stability   and photocatalytic activity for H₂ evolution. ACS Applied   Materials & Interfaces. 2015, 7, 4533-4540.

l Plasmonic   silver quantum dots coupled with hierarchical TiO₂ nanotube arrays   photoelectrodes for efficient visible light photoelectrocatalytic hydrogen   evolution. Scientific Reports. 2015, 5: 10461.

l Photoelectrocatalytic   reduction of CO₂ to methanol over a photosystem II-Cu   foam/Si-nanowires system. Journal of Environmental Sciences. 2017, 60,   108-113.

l Ionothermal   synthesis of black Ti³⁺-doped single-crystal TiO₂ as an   active photocatalyst for pollutant degradation and H₂ generation.   Journal of Materials Chemistry A. 2015, 3, 3748-3756.

Activity in professional associations within the   last five years

l “Best   Poster Award” in Asian Symposium on Nanoscience & Nanotechnology 2018

Post

Lecturer

Academic   career

2011-2015

Northeast Normal   University

Bachelor's degree   of Chemistry

2015-2021

East China Normal   University

Doctor's degree of   Physical Chemistry

Employment

2021-

Lecturer,   Department of Chemistry, University of Shanghai for Science and Technology

Research and development projects over the last 5   years

Industry   collaborations over the last 5 years

“Patents and proprietary rights

Important   publications

· Selective conversion of methanol to   propylene over highly dealuminated mordenite: Al location and crystal   morphology effects. Chinese Journal of Catalysis. 2021, 42, 1147-1159.

· Extra-large pore titanosilicate synthesized   via reversible 3D–2D–3D structural transformation as highly active catalyst   for cycloalkene epoxidation. ACS Catalysis. 2021,11, 2650-2662.

· Host-guest chemistry immobilized nickel   nanoparticles on zeolites as efficient catalysts for amination of 1-octanol.   Journal of Catalysis. 2020, 381, 443-453.

· High ethylene selectivity in   methanol‐to‐olefin (MTO) reaction over MOR‐zeolite nanosheets. Angewandte   Chemie International Edition. 2020, 59, 6258-6262.

· Topotactic conversion of Ge-rich IWW   zeolite into IPC-18 under mild condition. Microporous and Mesoporous   Materials. 2020, 310, 110617.

· ECNU-10 zeolite: a three-dimensional   MWW-Type analogue. Microporous and mesoporous materials: 2017,253, 137-145.

· Synthesis of two titanosilicates with   distinct interlayer connections from similar gels. Dalton Transactions.   2017,46, 5776-5780.

Activity in professional associations within the   last five years

● Membership   of China Chemical Society

Post

lecturer

Academic career

2008-2013

Donghua University

MSc&PhD degree of Material Science and Engineering

2013-2015

Shanghai University, Postdoctoral, Material Science and   Engineering

Employment

2020-

2016–2020

Lecturer,   Department of Chemistry, University of Shanghai for Science and Technology

Lecturer,   School of environmental and materials engineering, Shanghai Polytechnic   University

Research and development projects over the last 5   years

· Preparation and performance control of   high-capacity and fast self-charging electrochromic battery based on Prussian   blue hollow structure. Period: 2018.06-2021.05 (Natural Science Foundation of   Shanghai)

Industry   collaborations over the last 5 years

“Patents and proprietary rights

Important   publications

· One-step hydrothermal growth and   electrochromic properties of highly stable Prussian green film and device.   Solar Energy Materials & Solar Cells. 2019, 192, 103-108.

· Electrochromic devices based on tungsten   oxide films with honeycomb-like nanostructures and nanoribbons array. Solar   Energy Materials & Solar Cells. 2018, 177, 51-56.

· Inorganic electrochromic materials based on   tungsten oxide and nickel oxide nanostructures. Science China Chemistry.2016,   60, 54-62.

· Controllable growth of high-quality metal   oxide/conducting polymer hierarchical nanoarrays with outstanding   electrochromic properties and solar-heat shielding ability. Journal of   Materials chemistry A. 2014, 2, 13541-13549.

· Hierarchical NiO microflake films with high   coloration efficiency, cyclic stability for applications in a complementary   electrochromic device. Nanoscale. 2013, 5, 4808-4815.

· Morphology-tailored synthesis of vertically   aligned 1D WO₃ nano-structure films for highly enhanced   electrochromic performance. Journal of Materials chemistry A. 2013, 1,   684-691.

· Self-weaving WO₃ nanoflake films   with greatly enhanced electrochromic performance. Journal of Materials   chemistry. 2012, 22, 16633-1663939.

Activity in professional associations within the   last five years

Post

Associate Professor

Academic career

1998-2001

Hefei   Normal University

Bachelor's   degree of Chemical Education

2002-2005

Liaoning   shihua University

Master's   degree of Industrial Catalysis

2005-2008

Tongji   University

Doctor's   degree of Thermal Engineering

Employment

1995-2002

Anhui   Mengcheng city high school

2008-

University   of Shanghai for Science and Technology

Lecturer,   associate professor.

Research and development projects over the last 5   years

l Research on   two key problems in the construction of heavy metal ion magnetic   nano-extractant, Period: 2015-2017 (Natural Science Foundation of Shanghai)

Industry   collaborations over the last 5 years

“Patents and proprietary rights

· A method for preparing zinc cobalt oxide   nanomaterials doped with zinc oxide. China Patent No. ZL201310330115.2

· A preparation method of magnetic nano-solid   phase extractant for Pb²⁺ separation, China Patent No. ZL201210352292.6

· An approach for preparing Fe₂O₃,   Fe₃O₄ nanoparticles by Fe²⁺ salt as   precursors. China Patent No. Zl201010287913.8

· An approach for preparing Co₃O₄   nanomaterial from Co2O3 powder. China Patent No. Zl 200910195384.6

Important   publications

· Preparation 2-(anthracen-9-yl)-1,3-dithiolane   as a novel dual-channel AIE-active fluorescent probe for mercury (II) ion   with excellent performance. Journal of Photochemistry & Photobiology, A:   Chemistry. 2019, 378, 142-146.

· Acetylacetone functionalized magnetic carbon   microspheres for the highly-efficient adsorption of heavy metal ions from   aqueous solutions. RSC Advances. 2019, 9, 3337-3344.

· A novel Hg²⁺ fluorescence sensor   TPE-TSC based on aggregation-induced emission. Phosphorus Sulfur &   Silicon & the Related Elements. 2018, 193, 582-586.

· A novel tetraphenylethene-based fluorescence   probe based on the Hg²⁺-promoted deprotection of thioacetal.   Heterocycles. 2018, 96(5), 852-859.

· Morphologies and magnetism of A_xB₁-xFe₂O₄   self-assembled nanospheres. Materials Research Bulletin. 2018, 102, 137-141.

· Preparation of superparamagnetic ZnFe₂O₄   submicrospheres via a solvothermal method. Advances in Nano Research. 2017,   5, 171-178.

· Solid-phase extraction of Pb (II) ions based on   L-cysteine functionalized Fe₃O₄/SiO₂   core-shell nanoparticles. Journal of Environmental Engineering. 2016, 142,   04016062.

· Preparation of MnFe₂O₄   nano-particles via a facile water-glycol solvothermal approach. Synthesis and   Reactivity in Inorganic Metal-Organic and Nano-Metal Chemistry. 2016, 46,   1513-1518.

· A paradoxical contraction appearing in Eu³⁺   doped vanadium dioxide (B) nanocrystal via hydrothermal process. Materials   Letters. 2016,169, 114-117.

· Investigation the forced convective heat   transfer of Mn₃O₄-water nanofluids in transition   region. Journal of Nanofluids. 2016, 5, 186-190.

Activity in professional associations within the   last five years

Post

Professor

1988-1992

1996-1999

1999-2002

2002-2005

Doctor's   degree of Thermal Engineering

Northeast   Forestry University

Bachelor's   degree of Biology

Southeast   University

Master's   degree of Biomedical Engineering

Nanyang   Technology University, Singapore

Master's   degree of Chemistry

Wuhan   Technology University

Doctor's   degree of Material Science

Employment

1992-1996

2003-2012

2011-

Nanjing   Police-dog Institute

Technician

Zhejiang   Normal University

Associate   Professor/Professor

University of Shanghai for Science and Technology

Professor

Research and development projects over the last 5   years

l My   research interests are focused on nanomaterial-based   electrocatalysis/photocatalysis and its applications in energy, enviroment,   analysis and biomedicine. The recent research concerns about the   synthesis of non-precious metal (Ni, Co, W, Mo) based nanocomposites like   phosphide, nitride and carbide for the electrocatalytic production of   hydrogen through water splitting or urea oxidation. These non-precious metal   based nanocompounds are being explored their electrochemical performance for   fuel cell and supercapacitance.

l Nearly 200 research papers have been   published and two of them are ESI highly cited paper. There is one overview   paper publised in Chemical Reviews.

Industry   collaborations over the last 5 years

“Patents and proprietary rights

Important   publications

· History and new   developments of assays for cholinesterase activity and inhibition. Chemical   Reviews. 2010, 110, 5216-5234.

· Co-Te-Se   Nano-compounds as electrocatalysts for hydrogen evolution reaction. Journal   of The Electrochemical Society. 2016, 163, H625-H629.

· Simultaneous in   situ formation of Ni-based catalysts at the anode for glycerol oxidation and   at the cathode for hydrogen evolution. Journal of Applied Electrochemistry.   2016, 46, 1-8.

· Onsite   substitution synthesis of ultrathin Ni nanofilms loading ultrafine Pt   nanoparticles for hydrogen evolution. ACS Applied Materials & Interfaces.   2015, 7, 26101-26107.

· Nanoplates and   nanospheres of Co₃(VO₄)₂ as noble metal-free   electrocatalysts for oxygen evolution. Electrochimica Acta. 2015, 180,   260-267.

· Synthesizing nanoparticles   of Co-P-Se compounds as electrocatalysts for the hydrogen evolution reaction.   Electrochimica Acta. 2015, 165, 206-210.

· Electrodeposition   of Ni(OH)₂/NiOOH in the presence of urea for the improved oxygen   evolution. Electrochimica. Acta. 2015, 164, 196-202.

· Onsite   deposition of self-repairing biomimetic nanostructured Ni catalysts with   improved electrocatalysis toward glycerol oxidation for H₂   production. Electrochimica. Acta. 2015, 178, 209-216.

· Synthesis of   ultrafine Pt/Pd bimetallic nanoparticles and their decoration on MWCNTs for   hydrogen evolution. Journal of The Electrochemical Society. 2015, 162,   H415-H418.

· Electrocatalysis   and electroanalysis of nickel, its oxides, hydroxides and oxyhydroxides   toward small molecules. Biosensors and Bioelectronics. 2014, 53, 428-439.   (ESI highly cited paper).

· The   self-adsorption of Ni ultrathin layer on glassy carbon surface and their   electrocatalysis toward glucose. Journal of The Electrochemical Society.   2014, 161, H375-H378.

· Promotion effect   of bismuth on nickel electrodeposition and its electrocatalysis to glucose   oxidation. Electroanalysis. 2014, 26, 856-863.

· Self-assembly of   BiIII ultrathin Layer on Pt surface for non-enzymatic glucose sensing.   Electrochimica. Acta. 2013, 111, 621-626.

· Synergistic effect   of bimetallic Ag and Ni alloys on each other’s electrocatalysis to glucose   oxidation. Journal of The Electrochemical Society. 2013, 160, B47-B53.

· Nano NiO   modified non-enzymatic glucose sensors with enhanced sensitivity through an   electrochemical process strategy at high potential. Biosensors and   Bioelectronics. 2011, 26, 2948-2952. (ESI highly cited paper).

· PVP-coated   graphene oxide for selective detection of ochratoxin A via quenching   fluorescence of free aptamer. Biosensors and Bioelectronics. 2011, 26,   3494-3499.

· Prussian Blue   modified amperometric FIA biosensor: one-step immunoassay for   alpha-fetoprotein, Biosensors and Bioelectronics. 2014, 19, 789-794.

· Synthesis and   assembly of ultrathin film of Ni(OH)₂ nanoparticles at gas/liquid   interface, its high electrocatalytical oxidation toward bio-thiols and   selective determination of cysteine. Electrochemistry Communications. 2011,   13, 1119-1122.

· Square wave   voltammetry assay of organophosphorus inhibition on cholinesterase in two   phases of isooctane/water. Electrochemistry Communications. 2009, 11,   1022-1025.

· Electrochemical   conversion of Ni(OH)₂ nanoparticle film into nickel   hexacyanoferrate through a simple strategy of potential cycling.   Electrochimica. Acta. 2012, 74, 201-206.

Activity in professional associations within the   last five years

l FRSC, Fellow of the Royal   Society of Chemistry

l Member of editorial board,   Frontiers in Analytical Chemistry,

l Member, International Society   of Electrochemistry

l Member of editorial board   (2005-2010), Nanomedicine-UK

l Committee member, China   Instrument and Control Society, Division of Chemical Sensors

l Member, Society for a comparative study of   Chinese English and Chinese

Post

Associate Professor

Academic career

2000-2002

Henan   Normal University

Bachelor's   degree of Chemistry Education

2002-2005

Henan   Normal University

Master's   degree of Analytical Chemistry

2005-2008

Nanjing   University

Doctor's   degree of Biological Chemistry

Employment

2009-2011

The   University of Tennessee, Knoxville, USA

Postdoctoral   Fellow

2012-

University   of Shanghai for Science and Engineering

Lecture,   Associate professor

Research and development projects over the last 5   years

· Study on the   Porous Molecularly Imprinted Metal Organic Nanoframeworks-Based Biomimetic Electrochemical Immunosensors.   Period: 2014-2016 (National Natural Science Foundation of China).

· Exploration of   the New Molecularly Imprinted Nanomaterials - Based Biomimetic   Electrochemical Immunosensors. Period: 2013-2016 (Shanghai Natural Science   Foundation of China)

· Study on the   Fabrication of New Porous Molecularly Imprinted Metal Organic Nanoframeworks-Based Biomimetic   Electrochemical Immunosensors and their Bioanalytical Applications. Period:   2012-2014 (Innovation Program of Shanghai Municipal Education Commission of   China).

· Design of New   Bismuth Complexes and the Mechanism   Exploration of Their Anti-cancer Activities. Period: 2019-2022. ( Shanghai   Natural Science Foundation of China ).

· Synthesis of New   Bismuth Complexes for Their Anti-cancer Applications. Period: 2017-2019.   (State Key Laboratory of Analytical Chemistry for Life Science, Nanjing   University).

Industry   collaborations over the last 5 years

“Patents and proprietary rights

Important   publications

· A novel indium   doped bismuth nanofilm for simultaneous stripping determination of Zn(II),   Cd(II) and Pb(II) in river water. International Journal of Electrochemical   ScienceParticle size. 2018, 13, 1423-1440.

· Excellent   electrocatalytic performance of a Ni²⁺-loaded multiwalled carbon   nanotube composite in glucose oxidation. Journal of Solid State   Electrochemistry. 2017, 21, 2887-2898.

· Recent advances   and future development of metal complexes as anticancer agents. Journal of   Coordination Chemistry. 2017, 12, 2175-2201.

· Potential   anti-cancer activity of a novel Bi(III) containing thiosemicarbazone   derivative. Inorganic Chemistry Communications. 2016, 73, 138-141.

· Potent   anticancer activity of a new bismuth (III) complex against human lung cancer   cells. Journal of Inorganic Biochemistry. 2016, 168, 18-26.

· Single walled   carbon nanotube sandwiched Ni-Ag hybrid nanoparticle layers for the   extraordinarly electrocatalysis toward glucose oxidation. Electrochimca Acta.   2016, 188, 197-209.

· Synthesis and   application of bismuth complexes in biomedicine. Journal of Coordination   Chemistry. 2015, 68, 379-397.

· A newly prepared   Ni(OH)₂@Cr(OH)₃ nanohybrid for its biocatalysis.   Sensors and Actuators B-Chemical. 2014, 198, 350-359.

· Electrocatalysis   and electroanalysis of nickel, its oxides, hydroxides and oxyhydroxides   toward small molecules. Biosensors & Bioelectronics. 2014, 53, 428-439.

· Sn-Pb hybrid   nanoparticle decorated mesoporous carbon for sensitive stripping detection of   Cd (II). Journal of the Electrochemical Society. 2014, 161(12), H730-H737.

· Improved Bi film   wrapped single walled carbon nanotubes for ultrasensitive electrochemical   detection of trace Cr(VI). Electrochimca Acta. 2013, 113, 686-693.

· Self-assembly of   Bi-III Ultrathin Layer on Pt Surface for Non-enzymatic Glucose Sensing[J].   Electrochimica Acta. 2013, 111, 621-626.

· Flower-like   self-assembly of gold nanoparticles for highly sensitive electrochemical   detection of chromium(VI). Analytica Chimica Acta. 2012, 722, 1-7.

· Simultaneous   stripping detection of Zn(II), Cd(II) and Pb(II) using a bimetallic   Hg-Bi/single-walled carbon nanotubes composite electrode. Journal of   Electroanalytical Chemistry. 2011, 656, 78-84.

· Surface   molecularly imprinted nanowire for protein specific recognition. Chemical   Communications. 2008, 44, 5761-5763.

· A molecularly   imprinted copolymer designed for enantio-selective recognition of glutamic   acid. Advanced Functional Materials. 2007, 16, 3223-3230.

Activity in professional associations within the   last five years

Post

Lecturer

Academic career

1994-1998

Central   China Normal University

Bachelor's   degree of Chemistry

2001-2004

Zhengzhou   University

Master's   degree of Analytical Chemistry

2004-2008

Fudan   University

Doctor's   degree of Analytical Chemistry

Employment

1998-2001

Pushan   Power Plant

Research and development projects over the last 5   years

l ‘Instrumental Analysis’ Core   curriculum construction Project of University of shanghai for Science &   technology.

l ‘Analytical Chemistry B’ online   course cultivation Project of University of shanghai for Science &   technology.

Industry   collaborations over the last 5 years

“Patents and proprietary rights

Important   publications

l Electrochemical behavior and determination   of phenylephrine at silicate nanotubes modified Electrode. Journal of the Chinese Chemical Society.   2013, 60, 1181-1185.

l Preparation of silicate nanotubes and its   application for electrochemical sensing of clozapine. Materials Letters   .2013, 102,   56-58.

Activity in professional associations within the   last five years

Post

Professor

Academic career

1994-1998

Ludong   University

Bachelor's   degree of Chemical Education

1998-2001

Qingdao   University of Science & Technology

Master's   degree of Materials Physics and Chemistry

2001-2004

Shanghai   Institute of Ceramics, Chinese Academy of Sciences

Doctor's   degree of Materials Science and Engineering

Employment

2004-2006

Huazhong   University of Science and Technology

Lecturer

2006-2011

2006-2011

2011-2020

2020-

Nanchang   University

Associate   professor

Nanyang   Technological University, Singapore

Research   Fellow

Shanghai   Polytechnic University

Associate   Professor, Professor

University   of Shanghai for Science and Technology

Professor

Research and development projects over the last 5   years

· Preparation   and Performance of Self-charging Electrochromic Devices Based on   Hydrothermally Grown Prussian Blue and Its Analogues. Period:   2018-2018(National Natural Science Foundation of China).

· Preparation and Performance Research of Tungsten Oxide   Ultrafine Nanowires/Prussian Blue-like Hollow Nanostructures Complementary   Electrochromic Device. Period: 2014-2017(National Natural   Science Foundation of China).

· New Electrochromic Materials and Devices.   Period: 2014-2016(Shanghai   Municipal Education Commission).

· Study on the Preparation of Novel Electrochromic   Devices and Their Application in Window Batteries.   Period: 2014- 2016( Shanghai   Municipal Education Commission).

Industry   collaborations over the last 5 years

· Ningbo Miruo Electronic Technology Co., Ltd.

“Patents and proprietary rights

· One   method for the preparation of rod-shaped titanium dioxide. Patent code: 201610299669.4(2016)

· One method for directly growing Prussian blue film on   FTO conductive glass. Patent code: 201610640098.6(2016)

· One   method for directly growing   tungsten oxide film on conductive glass. Patent code: 2017100920869(2017)

· One   method for the preparation of molybdenum oxide electrochromic nano film. Patent   code: 201710092022.9(2017)

· One   method for the preparation of   tungsten oxide nanobelt structure electrochromic film. Patent   code: 201710437182.2(2017)

Important   publications

· One-step hydrothermal growth and electrochromic properties of highly   stable Prussian green film and device. Solar Energy Materials & Solar   Cells. 2019, 192, 103-108.

· A self-rechargeable electrochromic battery based on electrodeposited   polypyrrole film. Solar Energy Materials & Solar Cells. 2019, 192, 1-7.

· Electrochromic devices based on tungsten oxide films with honeycomb-like   nanostructures and nanoribbons array. Solar Energy Materials & Solar   Cells. 2018, 177, 51-56.

· Electrochromic properties of hydrothermally grown Prussian blue film and   device. Solar Energy Materials & Solar Cells. 2018, 177, 9-14.

· Inorganic electrochromic materials based on tungsten oxide and nickel   oxide nanostructures. Science China Chemistry. 2017, 60, 54-62.

Activity in professional associations within the   last five years

· Deputy Director of the Electrochromic Professional   Committee of the Chinese Photographic Society.

· Senior Member of the Thin Film and Coating Branch of   the Chinese Ceramic Society.

· Assistant   Editor of Nano-Micro Letters.

· Editorial   Board Member of Solar Energy Materials and Solar Cells.

· Editorial Board Member of Journal   of Inorganic Materials.

Post

Associate Professor

Academic career

2004-2008

Wuhan   Textile University

Bachelor's   degree of Chemical Engineering and Technology

2008-2013

Donghua   University

Doctor's   degree of Materials Science and Engineering

Employment

2013-2015

Shanghai   Institute of Ceramics, Chinese Academy of Science

2015-

University   of Shanghai for Science and Technology

Lecturer,   associate professor

Research and development projects over the last 5   years

l Mesoporous Silica Nanoparticle-based   Multifunctional Nano-platform for Tumor Diagnose, Photo-thermal and   Chemotherapy. Period: 2018-2020 (National Natural Science Foundation of   China).

l Preparation, Characterization and Tumor   Targeting Therapy of Ultra-small MoS₂ Nanosheets. Period:   2017-2019 (Shanghai Committee of Science and Technology).

l Design of injectable composite hydrogel for multifunctional   tumor therapy. Period: 2016-2018 (Shanghai Education Development Foundation   and Shanghai Municipal Education Commission).

l Design of PVA-based short nanofibers for   multifunctional tumor therapy. Period: 2018-2018. (State Key Laboratory of High Performance Ceramics and Superfine   Microstructure, Shanghai Institute of Ceramics, Chinese Academy of Sciences).

l Temperature-responsive composite hydrogel   for multifunctional tumor therapy. Period: 2018-2018. (Donghua University).

Industry   collaborations over the last 5 years

“Patents and proprietary rights

l Preparation and Application of Mesoporous   SiO₂/MoS₂. Patent code: ZL 201710810602.7 (2019)

Important   publications

l Bio-degradable Fe(III)@WS₂-PVP nanocapsules for redox   reaction and TME-enhanced nanocatalytic, photothermal and chemotherapy.   Advanced Functional Materials. 2019, 29, 1901722.

l Design of injectable agar-based composite hydrogel for   multi-mode tumor therapy. Carbohydrate Polymers. 2018, 180, 112-121.

l Bottom-up synthesis of WS₂ nanosheets with   synchronous surface modification for imaging guided tumor regression. Acta   Biomaterialia. 2017, 58, 442-454.

l Injectable two-dimensional MoS₂-integrated   drug-delivering implant for highly efficient NIR-triggered synergistic tumor   hyperthermia. Advanced Materials. 2015, 27, 7117-7122.

l A facile one-pot synthesis of two-dimensional MoS₂/Bi₂S₃   composite theranostic nanosystem for multi-modality tumor imaging and   therapy. Advanced Materials. 2015, 27, 2775-2782.

l Biocompatible PEGylated MoS₂ nanosheets: controllable   bottom-up synthesis and highly efficient photothermal regression of tumor. Biomaterials,   2015, 39, 206-217.

l Encapsulation of amoxicillin within laponite-doped   poly(lactic-co-glycolic acid) nanofibers: preparation, characterization and   antibacterial activity.   ACS Applied Materials & Interfaces. 2012, 4, 6393−6401.

· Poly(amidoamine) dendrimer-enabled simultaneous stabilization   and functionalization of electrospun poly(gamma-glutamic acid) nanofibers. ACS Applied   Materials & Interfaces. 2014, 6, 2153-2161.

Activity in professional associations within the   last five years

l Member of Chinese chemical society

Post

Lecturer

Academic career

2001-2005

China   University of Geosciences (in Beijing)

Bachelor’s   degree of Geochemistry

2005-2010

Peking   University

Doctor’s   degree of Geochemistry

Employment

2010-2013

Chinese   Academy of Geological Sciences

Post-doc

2013-

University   of Shanghai for Science and Technology

Lecturer

Research and development projects over the last 5   years

l Fe   Isotopic Characteristics of V-Ti Magnetite Deposit in Panzhihua Area of   Sichuan Province and Their Genetic Implications. Period:2012-2014.( National   Natural Science Foundation of China)

l The   Genetic Implications of Fe isotopic Characteristics of V-Ti Magnetite Deposit   in Panzhihua Area of Sichuan Province. Period:2016-2018.( Science and   Technology Development Project of University of Shanghai for Science and   Technology)

Industry   collaborations over the last 5 years

“Patents and proprietary rights

Important   publications

· Research   on the experiment of hydrogen isotope fractionation between benzene and heavy   water with raman spectra. Spectroscopy and Spectral Analysis. 2018, 34,   556-560.

· Research on the experiment of oxygen isotope   fractionation using diamond anvil cell and raman spectra. Journal of Residuals Science &   Technology, 2016, 13, 1-10.

· The influence of ionic strength on carbonate-based   spectroscopic barometry for aqueous fluids: an in-situ Raman study on Na₂CO₃-NaCl   solutions, Scientific Reports,   2016, 12, 1-9.

· Iron isotope study of basalt   weathering crust from the huguangyan district Zhanjiang Guangdong Province. Acta Geologica Sinica, 2013, 87, 1461-1468.

· Fe isotopic characteristics   of V-Ti magnetite deposit in Panzhihua area of Sichuan province and their   genetic implications. Acta Geoscientica   Sinica, 2012, 33, 995-1004.

· Raman spectroscopic study on   the fluid effects in dissolution and phase transition mechanisms of gypsum. Spectroscopy and Spectral Analysis, 2012,32, 673-675.

· Research on raman spcetra of   brucie at high temperature and pressure. Acta   Mineralogica Sinica, 2012, 32, 349-352.

Activity in professional associations within the   last five years

l The second Award for Micoclass Achievement, University of Shanghai for   Science and technology

l Official reviewer for geological and high pressure academic Journals:   Acta Geologica Sinica

Post

Lecturer

Academic career

2010-2014

Fuyang   Normal Nniversity

Bachelor's   degree of The Applied Chemistry

2014-2019

East China Normal University

Doctor's   degree of The Analytical Chemistry

Ployment

2019-

University   of Shanghai for Science and Technology,

Lecturer

Research and development projects over the last 5   years

Industry   collaborations over the last 5 years

“Patents and proprietary rights

Important   publications

· Heterogeneous   bimetallic phosphide/sulfide nanocomposite for efficient solar-energy-driven   overall water splitting. ACS Nano, 2017, 11, 10303-10312.

· Photoelectrochemical   stripping analysis. Analytical Chemistry, 2018, 90, 1068-1071.

· Sputtering gold   nanoparticles on nanoporous BiVO₄ for sensitive and selective photoelectrochemical   aptasensing of thrombin. Chemical Communications, 2017, 53, 8898-8901.

· Recognition   unit-free and self-cleaning photoelectrochemical sensing platform on TiO₂   nanotube photonic crystals for sensitive and selective detection of dopamine   release from mouse brain. Biosensors and Bioelectronics, 2017, 87, 396-402.

· Pyrite FeS₂   sensitized TiO₂ nanotube photoanode for boosting near-infrared   light photoelectrochemical water splitting. ACS Sustainable Chemistry &   Engineering, 2016, 4, 6659-6667.

· Lithium ion   intercalation of 3-D vertical hierarchical TiO₂ nanotubes on   titanium mesh for efficient photoelectrochemical water splitting. Chemical   Communications, 2016, 52, 4541-4544.

· Photoelectrochemical   aptasensor for sensitive and selective detection of kanamycin based on Au   nanoparticles functionalized self-doped TiO₂ nanotube arrays.   Chemical Communications, 2015, 51, 15498-15501.

Activity in professional associations within the   last five years

Post

Associate Professor

Academic career

2002-2006

Nanchang   University

Bachelor's   degree of Chemistry

2006-2012

Fudan   University

Doctor's   degree of Organic Chemistry

Employment

2012-

University   of Shanghai for Science and Technology

Lecturer,   associate professor

Research and development projects over the last 5   years

l Research   on stereospecific total synthesis of (+)-biotin. Period: 2014-2016 (Hubei   provincial key laboratory of drug synthesis and optimization).

Industry   collaborations over the last 5 years

l Process   equipment sample detection algorithm development. Period: 2016-2017   (Guangzhou minyuan energy technology co. LTD).

l Development   of chemical teaching materials in higher vocational colleges. Period:   2018-2019 (Shanghai lanhong information technology co., LTD).

l Optimization   of synthetic process of vitamin B1. Period: 2019-2020 (Shanghai zhengduo   medical technology co., LTD).

l Structural   identification of impurities and by-products in drug synthesis. Period:   2019-2019 (Shanghai lanhong information technology co., LTD).

“Patents and proprietary rights

l A   preparation method of hexamethyleneimine. Patent code: 201210501654:A (2012)

l A   preparation method of tetronic acid. Patent code: 201410405189:A (2014)

Important   publications

· An improved and   economical process for preparation of pregabalin, an anticonvulsant.   Heterocycles. 2017, 94, 554-559.

· An improved   large-scale preparation of Roche Lactone, an intermediate for the synthesis   of (+)-biotin. Organic Preparations and Procedures International, 2015, 47,   242-248.

· A novel synthetic   route to 7-MAC from 7-ACA. Journal of Iranian Chemical Society, 2016, 13,   1019-1025.

· Preparation of   (+)-biotin: process development and scale-up. Heterocycles, 2016, 92,   544-551.

· Highly   enantioselective methanolysis of meso-cyclic anhydride mediated by functional   thiourea cinchona alkaloid derivatives: Access to asymmetric total synthesis   of (+)-biotin. Journal of Heterocyclic Chemistry, 2013, 50, 1078-1082.

Activity in professional associations within the   last five years

l 2014-2015   Annual Teaching Competition Award

l 2015-2018   Annual Course teaching excellence Award

l 2016   Outstanding Bachelor Tutor Award

l 2016   Excellent Reviewer Award

l 2018-2019   Annual Excellent Teaching and Research Paper Award

l 2019   Outstanding Advisor Award

Post

Lecturer

Academic career

2010-2014

North   China University of Science and Technology

Bachelor's   degree of Chemical Engineering and Technology

2014-2019

Beijing   University Of Chemical Technology

Doctor's   degree of Chemical Engineering and Technology

Employment

2019-

University   of Shanghai for Science and Technology

Research and   development projects over the last 5 years

Industry   collaborations over the last 5 years

“Patents and proprietary rights

l A Method   for extracting phenolic compound from phenol-containing oils by using inner   salt. Patent code: 201610980169.7 (2015)

Important   publications

· Imidazolium-based dicationic   ionic liquids: Highly efficient extractants for separating aromatics from   aliphatics. Green Chemistry. 2018, 20, 3101-3111.

· Efficient separation of phenol   from model oils using environmentally benign quaternary ammonium-based   zwitterions via forming deep eutectic solvents. Chemical Engineering Journal.   2017, 326, 620-626.

· Extraction of aromatics from   aliphatics using a hydrophobic dicationic ionic liquid adjusted with   small-content water. Separation and Purification Technology. 2020, 236,   116287.

· Sulfonate based zwitterions: A   new class of extractants for separating phenols from oils with high   efficiency via forming deep eutectic solvents. Fuel Processing Technology.   2018, 178, 206-212.

· Selective extraction of   aromatics from aliphatics using dicationic ionic liquid-solvent composite   extractants. Journal of Molecular Liquids. 2019, 291, 11127.

· Efficient separation of   phenolic compounds from model oils by dual-functionalized ionic liquids.   Chemical Engineering & Processing: Process Intensification. 2018, 128,   216-222.

· Ternary phase behavior of   phenol + toluene + zwitterionic alkaloids for separating phenols from oil mixtures   via forming deep eutectic solvents. Fluid Phase Equilibria. 2017, 448,   116-122.

· Deep eutectic solvents: green   solvents for separation applications. Acta Physico-Chimica Sinica. 2018, 34,   873-885.

Activity in   professional associations within the last five years

Post

lecturer

Academic career

2004.09-2008.06

Changshu Institute of Technology

Bachelor's degree of Polymer Materials

2008.09-2011.06

Guangxi Normal University

Master's degree of Applied Chemistry

Nanjing University

Doctor's degree of Materials

2013.09-2017.09

Employment

2021.01

2018.03-2020.12

2012.07-2013.08

2011.06-2012.06

Lecturer,   Department of Chemistry, University of Shanghai for Science and Technology

Postdoctoral   Researcher, Department of Materials, Beihang University

Sony   Electronice (Wuxi) Co. Ltd, R&D Engineer

Jiangsu   Hengyi Lithium Battery Manufacturing Co. Ltd, R&D Engineer

Research and   development projects over the last 5 years

l Study on the Mechanism of Metal Atom   Intercalated Metal Oxides on Lithium-Sulfur Batteries. Period:   2020.01-2022.12 (National Natural Science Foundation of China)

l Research on Self-healing Electrode   Technology Based on Two-Dimensional Self-Assembled Materials. Period:   2018.11-2020.10 (Contract for Special Zone of Defense Science and Technology   Innovation)

Industry   collaborations over the last 5 years

“Patents and proprietary rights

l Invention patent, a multi-metal doped   molybdenum disulfide material and its preparation method and application.   Application number: 202010429647.1, Gong Yongji, Yang Weiwei, Chen Qian,   Jiang Huaning.

l Invention patent, a metal intercalated   molybdenum oxide material and its preparation method and application,   publication number: CN 109888198 A, Gong Yongji, Yang Weiwei, Zhai Pengbo,   Jiang Huaning, Chen Qian, Xiao Jing.

l Invention patent, molybdenum   trioxide-molybdenum dioxide heterostructure composite and its preparation   method and application, application number: 202010358796.3, Gong Yongji, Chen   Qian, Yang Weiwei, Wei Yi.

l Invention patent, a vanadium-based cathode   material for lithium ion batteries and its preparation method, publication   number: CN104993129A, Liu Jianguo, Zhang Xiang, Wang Gang, Wan Li, Yang   Weiwei, Fang Chun.

Important   publications

l Conversion of intercalated MoO₃   to multi-heteroatoms doped MoS₂ with high hydrogen evolution   activity. Advanced Materials. 2020, 32, 2001167-2001175.

l MoO₃/MoO₂-CP   Self-Supporting Hetero-structure for Modification of Lithium-Sulfur   Batteries. Journal of Materials Chemistry A. 2020, 8, 15816-15821.

l Tin Intercalated Ultrathin MoO₃   Nanoribbons for Advanced Lithium-Sulfur Batteries. Advanced   Energy Materials. 2019, 9, 1803137-1803144.

l Ferrous sulfide assisted hollow   carbon spheres as sulfur host for advanced Lithium-sulfur batteries. Chemical   Engineering Journal. 2017, 326, 1040-1047.

l Ultrathin LiFePO₄   nanosheets self- assembled with reduced graphene oxide applied in high rate   lithium ion batteries for energy storage. Applied Energy. 2017, 195,   1079-1085.

l One-Step growth of 3D CoN_i2S₄   nanorod and cross-linked NiCo₂S₄ nanosheet arrays on   carbon paper as anodes for high-performance lithium ion battery. Chemical   Communications. 2016, 52, 5258-5261.

Activity in professional associations within the   last five years

● Membership   of China Chemical Society

Post

Lecturer

Academic career

2009-2013

Zhenzhou   University

Bachelor's   degree of Materials Science and Engineering

2013-2016

Shanghai   institute of applied physics, Chinese Academy of Sciences

Master's   degree of Bioengineering

2016-2019

Fudan   University

Doctor's   degree of Polymer Chemistry and   Physics

Employment

2019-

University   of Shanghai for Science and Engineering

Lecturer

Research and development projects over the last 5   years

· Research on Chiral Supramolecular Assembly   Structure in Selective Release of Biopharmaceuticals. Period: 2019(   University of Shanghai for Science and Engineering)

· Study on Supermolecular Chirality in Hybrid   Nanomaterials with Chiral Resolution   and Enantiomeric Recognition. Period: 2018-2019 (Fudan University)

· Research on Super-resolution Fluorescence   Microscopy Imaging of Supramolecular Assembly of Photoinduced Aggregated   Molecules and Block Copolymers. Period:2017-2019 (Fudan University).

· Directed Self-Assembly of Templatable Block   Copolymers by thermodynamic and kinetic controll:2016-2018. Period:   2016-2019 (Fudan University).

· Imparting superhydrophobic interfaces to   solid materials with recyclable   method. Period:2014-2016 (Shanghai institute of applied physics, Chinese   Academy of Sciences).

Industry   collaborations over the last 5 years

“Patents and proprietary rights

Important   publications

l Chirality   transfer in organogel-based nanofibers enabling wide-range naked-eye   enantiodifferentiation. ACS Nano. 2019, 13, 12438−12444.

l Directed   self-Assembly of templatable block copolymers by easily accessible magnetic   control. Small. 2019, 15, 1804572.

l Dynamic   modulation of supramolecular chirality driven by factors from internal to   external level. Chemistry an Asian Journal. 2019,   14, 2172-2180.

l “Lotus-effect” tape: Imparting superhydrophobicity to solid   materials with an electrospun Janus composite mat. RSC Advances. 2016, 6, 17215-17221.

Activity in professional associations within the   last five years

· 2019 Fanhai Overseas Exchange Award

· 2016 Shanghai Excellent Graduate

· 2015 National Scholarship

Post

Professor

Academic career

1989-1992

East   China Normal University

Master's   degree of Physical Chemistry

2005-2008

Shanghai   University

Doctor's   degree of Materials Science

Employment

1992-2005

Shanghai   Ocean University Assistant professor, lecturer, associate professor

2005-

University   of Shanghai for Science and Technology

Associate   professor, professor

Research and   development projects over the last 5 years

l Shanghai Leading Talent Program. Period:2014-2019(Shanghai   Municipal Bureau of Human Resources and Social Security, Shanghai Municipal   Committee Organization Department).

Industry   collaborations over the last 5 years

“Patents and proprietary rights

Important   publications

l Deciphering   electron-shuttling characteristics of Scutellaria baicalensis Georgi and   ingredients for bioelectricity generation in microbial fuel cells. Journal of   the Taiwan Institute of Chemical Engineers. 2019, 96, 361-373.

l Study of   Catalytic CO₂ Absorption and Desorption with Tertiary Amine DEEA   and 1DMA-2P with the Aid of Solid Acid and Solid Alkaline Chemicals.   Molecules. 2019, 24, 1009.

l 3D-QSAR   Studies on a Series of Indomitable Derivatives as Antiplasmodial Drugs.   Chinese Journal of Structural Chemistry. 2018, 37, 1015-1024.

l Study on   the Anti-Endometrial Cancer Activity of a Series of   4,6-Diaryl-2-pyrimidinamine Derivatives against Endometrial Carcinoma   Ishikawa Cell and Their Molecular Design. Chemistry Select. 2018, 3,   9021-9024.

· Studies on a Series of Coumarin Derivatives   for Anticancer Activity against Breast Carcinoma Cell Line MCF-7 and Their   Molecular Design. Chinese Journal of Structural Chemistry. 2018, 37,   1891-1898.

Activity in professional associations within the   last five years

l Shanghai   Leading Talent

l Shanghai   Women's Innovation Award Nomination Award

Post

Professor

Academic   career

2003-2007

Guizhou University

Bachelor's degree   of Chemical Engineering and Technology

2007-2010

Nanjing Tech   University

Master's degree of   Industrial Catalysis

2010-2014

Queensland   University of Technology

Doctor's degree of   Chemistry

Employment

2014-2016

Aston University   and RWTH Aachen University

2016-2020

Nanjing Forestry   University

Associate Professor

2020-

University of Shanghai   for Science and Engineering

Full Professor

Research and development projects over the last 5   years

· Catalytic Nanomaterials Development and   Applications. Period: 2020-2023 (Shanghai Talent Project)

· Designer supported zeolite nanocrystals for   efficient catalytic conversion of cellulose to sorbitol. Period: 2018-2020   (National Natural Science Foundation of China – Youth Project)

· Construction of Pt-nanozeolite with oriented   crystal phases for conversion of cellulose to sorbitol. Period:2018-2020   (Jiangsu Youth Science Foundation Project)

Industry   collaborations over the last 5 years

· Development of dried distillers’ grain-based   nanocarbons. Period: 2020-2022

· Development of stable ZnO-based aqueous   suspension. Period: 2020-2022

“Patents and proprietary rights

Important   publications

· Heterogeneously   catalyzed hydrothermal processing of C₅–C₆ sugars. Chemical Review. 2016, 116,   12328-12368.

· Platinum-catalyzed   aqueous-phase hydrogenation of d‑glucose to d‑sorbitol, ACS Catalysis. 2016, 6, 7409-7417.

· Recent   development of plasmon-mediated photocatalysts and their potential in   selectivity regulation. Journal of Materials Chemistry A. 2018, 6, 1941-1966.

· Sulfated zirconia catalysts for D-sorbitol   cascade cyclodehydration to isosorbide: impact of zirconia phase. ACS Sustainable Chemistry &   Engineering. 2018, 6, 14704−14712.

· Sustainable and scalable in-situ synthesis   of hydrochar-wrapped Ti₃AlC₂-derived nanofibers as   adsorbents to remove heavy metals. Bioresource   Technology. 2019, 282, 222-227.

Activity in professional associations within the   last five years

Post

Technician

Academic career

1998-2002

Qilu   University of Techonolgy (Shandong Academy of Sciences)

Bachelor's   degree of Light environment and engineering

2003-2006

Dalian   University of Technology

Industrial   Catalysis

2019-

University   of Shanghai for Science and Technology

Doctor's   degree of Biochemistry and Sensing

Employment

2006-

University   of Shanghai for Science and Technology

Research and development projects over the last 5   years

· Design of New   Bismuth Complexes and the Mechanism   Exploration of Their Anti-cancer Activities. Period: 2019-2022. ( Shanghai   Natural Science Foundation of China ).

· Synthesis of New   Bismuth Complexes for Their Anti-cancer Applications. Period: 2017-2019.   (State Key Laboratory of Analytical Chemistry for Life Science, Nanjing   University).

Industry   collaborations over the last 5 years

“Patents and proprietary rights

Important   publications

· A frogspawn-like   Ag@C core-shell structure for an ultrasensitive label-free electrochemical   immunosensing of carcinoembryonic antigen in blood plasma. RSC Advances.   2021, 11, 16339-16350.

· Recent   Development of the Electrochemical Sensors for miRNA Detection. International   Journal of Electro -chemical Science. 2021, 16(4): 210421.

· Functionalization   of bismuth sulfide nanomaterials for their application in cancer   theranostics. Chinese Chemical Letters. 2020, 31, 3015-3026.

· A novel indium   doped bismuth nanofilm for simultaneous stripping determination of Zn(II),   Cd(II) and Pb(II) in river water. International Journal of Electrochemical   Science. 2018, 13, 1423-1440.

· Excellent   electrocatalytic performance of a Ni2+-loaded multiwalled carbon nanotube   composite in glucose oxidation. Journal of Solid State Electrochemistry.   2017, 21, 2887-2898.

· Recent advances   and future development of metal complexes as anticancer agents. Journal of   Coordination Chemistry. 2017, 12, 2175-2201.

· Differences in   patterns of metabolic abnormality and metabolic syndrome between early-onset   and adult-onset first-episode drug-naive schizophrenia patients. Psychoneuroendocrinology. 2021,   132, 105344.

Activity in professional associations within the   last five years

Post

Lecturer

Academic career

2002-2006

Qufu   Normal University

Bachelor's   degree of Chemistry

2006-2009

Tongji   University

Master's   degree of Inorganic Chemistry

2012-2017

Tohoku   University

Doctor's   degree of Chemical Engineering

Employment

2017-2018

Semiconductor   Manufacturing International Corporation

2018-

University   of Shanghai for Science and Engineering

Lecturer

Research and development projects over the last 5   years

l Biomass   catalytic conversion to produce hydrogen and low temperature waste heat   recovery. Period:2015-2017 (Japan Society for the Promotion of Science   Foundation project)

Industry   collaborations over the last 5 years

l

“Patents and proprietary rights

l Preparation   method of iron-nickel-platinum alloy nanorod. Patent code: 200910046636.9   (2009)

Important   publications

l Green   solvent for green materials: a supercritical hydrothermal method and   shape-controlled synthesis of Cr-doped CeO₂ nanoparticals.   Philosophical Transactions of the Royal Society A: Mathematical, Physical and   Engineering Sciences. 2015, 373, 20150012.

Activity in professional associations within the   last five years