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论文成果

本页面按照两个子目录进行展示：论文（Papers）用于展示期刊论文成果，专利（Patents）用于展示知识产权成果。

* 通讯作者 · + 共同一作 · 展示 2021 年以来代表性论文

2026

Online monitoring of volatile organic compounds in water by ultra-low-temperature purge-and-trap coupled with gas chromatography-mass spectrometry system Analytica Chimica Acta

Wu M., Qiu W., Su Y., Zhao W.-W., Song N.*, Hu B.*, Chen G.*

Analytica Chimica Acta, 2026 DOI →

Construction of Pt-TiO_x interfacial sites via Pt-TiO₂ metal-support interaction for efficient catalytic dehydrogenation of methylcyclohexane

Li Z., Wang M., Liu S., Yang H., Zhao Y., Gu L., Chen G.*

Science Bulletin, 2026 DOI →

Accelerating Multi-Elemental Catalyst Discovery with Interpretable Machine Learning and Automated Experimentation ACS Nano

Liu F., Chen Z., Hu H., Li C., Zhang L., Liu Z.*, Chen G.*

ACS Nano, 2026, 20, 15, 11699–11711 DOI →

Design principles and selectivity origins of Pt-CuO_x interfacial catalysts for low-voltage direct electrooxidation of biomass-derived compounds

Pei A.⁺, Fu S.⁺, Wang P.⁺, Zhao Y., Zhou W., Ye J., Jia Y., Wang X., Peng J.*, Guo Z., Chen G.*

Science Bulletin, 2026 DOI →

Hierarchical ZSM-5 Catalysts With Engineered Surface Acid Sites for Selective and Efficient Upgradation of Waste Polyolefins

Dai J., Li Z., Tian S., Wang M., Wu Q., Huang R., Cheng K., Liu S., Chen G.*

ChemSusChem, 2026, 19, e202502489 DOI →

Heteropoly acid-mediated electrochemically efficient removal of oxygen

Sun P.⁺, Wang P.⁺, Chen Z.⁺, Pei A., Wu Q., Zhang G., Ji S., Liu D., Qin H., Chen G.*

Chem. Commun., 2026 DOI →

Efficient and Selective Electrooxidation of 5-Hydroxymethylfurfural at Low Voltage by the Pt–O–Ti Interface Nano Lett.

Zhou W.⁺, Fu S.⁺, Pei A.⁺, Zhang J., Jiang X., Liu R., Yang H., Huang W.-H., Liu S., Peng J., Zhao Y.*, Chen G.*

Nano Letters, 2026, 26, 7, 2769–2777 DOI →

Carbonate-incorporated cobalt hydroxides for enhanced performance in the electrocatalytic oxidation of 5-hydroxymethylfurfural

She X.⁺, Zhang J.⁺, Yang H.⁺, Tian H., Zhou W., Zhao Y., Zhang S., Tu R., Chen G.*, Peng J.*

Nano Research, 2026, 19(3): 94908223 DOI →

Efficient and Sustainable Electrochemical System for Alkali Ion Recovery from Alkaline Polyester Waste Hydrolysis

Chen Z., Wang P., Pei A., Zhang G., Liu D., Sun P., Chen G.*

Small Methods, 2026, 10(3), 2500962 DOI →

Electron-Enriched Pt-In Synergistic Sites for Highly Selective and Direct Photo-Reforming of PET Plastic Wastes into Acetic Acid

Yang C., Li W., Wang Y., Shang J., Kamegawa T., Chen G., Yamashita H.*

Angew. Chem. Int. Ed., 2026, 65(2), e21531 DOI →

Online monitoring of odor compounds in drinking water sources by an integrated robotic sample preparation platform coupled with a gas chromatography-mass spectrometry system

Wu M., Su Y., Chen Z., Zhao W.-W., Song N.*, Hu B.*, Chen G.*

Talanta, 2026, 297, 128529 DOI →

2025

Realizing the practical application of CO₂ electroreduction for urban wastewater denitrification Nature Water

Wu Q.⁺, Ji S.⁺, Chen J.⁺, Tan X.-Q., Ong W.-J., Du R., Wang P., Wang H., Qiu Y., Yan K., Zhao Y., Zhao W.-W.*, Peng K.-S., Chen Y.-Y., Hung S.-F.*, Zhou L., Wang X., Qiu G.*, Chen G.*

Nature Water, 2025, 3, 1291–1302 DOI →

Integrated system for electrolyte recovery, product separation, and CO₂ capture in CO₂ reduction Nat. Commun.

Wang P.⁺, Pei A.⁺, Chen Z.⁺, Sun P., Hu C., Wang X., Zheng N.*, Chen G.*

Nature Communications, 2025, 16, 731 DOI →

A chemical autonomous robotic platform for end-to-end synthesis of nanoparticles Nat. Commun.

Gao F.⁺, Li H.⁺, Chen Z.⁺, Yi Y., Nie S., Cheng Z., Liu Z.*, Liu S., Guo Y., Qin Q., Li Z., Zhang L., Hu H., Li C., Yang L., Wang Y., Chen G.*

Nature Communications, 2025, 16, 7558 DOI →

Low-Voltage Electrooxidation of Benzyl Alcohol to Benzoic Acid Enhanced by PtZn-ZnO_x Interface JACS

Liu R.⁺, Tu W.⁺, Pei A.*, Huang W.-H., Jia Y.*, Wang P., Liu D., Wu Q., Qin Q., Zhou W., Zhou L., Yan K., Zhao Y.*, Chen G.*

J. Am. Chem. Soc., 2025, 147, 12, 10339–10348 DOI →

Two-Dimensional Submonolayer Pt Clusters with Optimal Pt⁰–Ptᵟ⁺ Sites for Efficient Methylcyclohexane Dehydrogenation

Li Z.⁺, Wang M.⁺, Yang H.⁺, Jia Y.*, Liu S., Yang S., Chen M., Wang P., Dai S., Zhou L., Zhao Y.*, Chen G.*

ACS Nano, 2025, ASAP DOI →

LiCoO₂-Derived Ni-Doped Catalysts for Electrochemical Upcycling of PET Waste to Formic Acid

Chen Z.⁺, Zhang G.⁺, Yang H.⁺, Zhao Y., Pei A., Wang P., Yang J., Zhang J., Sun P., Qin H., Zhan J., Peng J., Huang W.-H., Zhou L., Chen G.*

ACS Nano, 2025, 19, 29, 26572–26582 DOI →

Selective Biomass Valorization in Neutral Electrolyte by Lowering the O₂ Activation Energy via Tandem Catalysis

Zheng Y., Wu Q., Wang H., Wang P., Huang W.-H., Zhao Y., Chen G.*

ACS Catalysis, 2025, 15, 18155–18166 DOI →

Copper-Optimized Active Sites in Cobalt Oxide Nanocubes for Selective Electrooxidation of 5-Hydroxymethylfurfural

Zhang J., Pei A., Yang H., Zhou W., Feng Z., Tian H., Zhao Y.*, Chen G.*, Peng J.*

ACS Catalysis, 2025, 15(6), 4596–4604 DOI →

Transforming polystyrene wastes into aromatic products near ambient temperature with aluminium chloride

Tian S.⁺, Dai J.⁺, Li Z., Wu Q., Chen G.*

Green Chemistry, 2025, 27, 7908–7917 DOI →

Fine regulation of Ru species improved the polyethylene hydrogenolysis performance over Ru/Al₂O₃ catalyst

Dai J., Fang Z., Yang H., Li Z., Wang M., Tian S., Liu S., Jia Y., Chen M., Zhao Y., Chen G.*

Nano Research, 2025 DOI →

Li₂ZrF₆-based electrolytes for durable lithium metal batteries Nature

Xu Q., Li T., Ju Z., Chen G., Ye D., Waterhouse G.I.N., Lu Y., Lai X., Zhou G., Guo L.*, Yan K.*, Tao X.*, Li H.*, Qiu Y.

Nature, 2025, 637, 339–346 DOI →

Tuning *CO Adsorption via Cu⁺/Cu⁰ Interface Engineering for Enhanced Ethylene Selectivity in Electrochemical CO₂ Reduction

Wang H., Wu Q., Du R., Chen G.*

ACS Applied Materials & Interfaces, 2025, 17(39), 55003–55012 DOI →

Quenching-induced Fe doping on spent cathode materials enhances the oxygen evolution reaction performance

Zhang G., Ye C., Li T., Liu S., Huang W.-H., Chen Z., Ren X., Lin J., Yang J., Chen G.*

Energy Storage Materials, 2025, 80, 104430 DOI →

Surface structure engineering of PtCu clusters enhances the performance of propane dehydrogenation

Lin J., Yang J., Li T., Zhao S., Huang W.-H., Chen C.-L., Zhao Y., Liu S., Gu L., Chen G.*

Nano Research, 2025, 18(5), 94907357 DOI →

2D Plasmonic Photocatalyst Enables Highly Efficient Hot-Electron-Mediated Surface Reactions under Red Light Irradiation

Gan Y., Kalantari Osgouei A., Ahrens B., Wang B., Zhou J., Zhan J.Z., Deng Z., Chen G.

ACS Nano, 2025, 19(17), 17006–17013 DOI →

Pt Nanoparticles Supported on Graphitic Carbon Nitride/CeO₂ Nanocomposite as a Catalyst for the Oxidation of Toluene

Zhong M., Chong Y., Li Y., Zeng Z., Duan C., Liu S., Qiu Y., Ye D., Chen G.*

ACS Applied Nano Materials, 2025, 8(13), 6554–6562 DOI →

Structural engineering of core–shell PtCu alloy catalysts for propane dehydrogenation: a DFT study

Jiang F., Zhang S., Liu D., Lin J., Yang H., Li H., Wang H., Chen G., Zhao Y.*

Physical Chemistry Chemical Physics, 2025, 27(22), 12032–12040 DOI →

2024

Enhanced electrocatalytic biomass oxidation at low voltage by Ni²⁺-O-Pd interfaces Nat. Commun.

Pei A.⁺, Wang P.⁺, Zhang S., Zhang Q., Jiang X., Chen Z., Zhou W., Qin Q., Liu R., Du R., Li Z., Qiu Y., Yan K., Gu L.*, Ye J., Waterhouse G.I.N., Huang W.-H., Chen C.-L., Zhao Y.*, Chen G.*

Nature Communications, 2024, 15, 5899 DOI →

Pt–ZnO_x Interfacial Effect on the Performance of Propane Dehydrogenation and Mechanism Study

Liu D., Jiang F., Zhang Q., Huang W.-H., Zheng Y., Chen M., Wu L., Qin R., Wang M., Zhang S., Chen L., Yan K., Zhou L., Zhao Y.*, Gu L.*, Chen G.*

ACS Nano, 2024, 18, 51, 34671–34682 DOI →

Unveiling the Gold Facet Effect in Selective Oxidation of 5-Hydroxymethylfurfural and Hydrogen Production

Qin Q., Li T.*, Sun X., Pei A., Jia Y., He H., Gao F., Wang P., Wu Q., Liu R., Dai S., Lin H., Zhang Q., Zhao Y., Chen G.*

Nano Letters, 2024, 24, 51, 16351–16359 DOI →

Modulating Adsorption–Redox Sites of Cs₃Bi₂Br₉₋ₓ@AgBr Core–Shell Heterostructure for Selective Toluene Photooxidation

Zhou B., Fan K., Chong Y., Xu S., Wei J., Wei J., Sergeev A.A., Wong K.S., Li T.*, Chen G.*, Ye D.*, Yan K.*

ACS Energy Letters, 2024, 9, 4, 1743–1752 DOI →

Multistep Quenching of a Rust-Derived Catalyst for Enhanced VOC Catalytic Oxidation

Chong Y., Chen T., Zhou B., Li Y., Huang W.-H., Chen C.-L., Wei J., Yan K., Qiu Y.*, Chen G.*, Ye D.

ACS Catalysis, 2024, 14, 9, 7201–7212 DOI →

Efficient photothermal catalytic oxidation enabled by three-dimensional nanochannel substrates

Li Y., Zhang Q., Chong Y., Huang W.-H., Chen C.-L., Jin X., Chen G.*, Fan Z.*, Qiu Y.*, Ye D.

Environmental Science & Technology, 2024, 58, 11, 5153–5161 DOI →

Heterostructured metal oxides realized by quenching-induced structural transformation

Ye C., Pan Z., Zhang Q., Yin F., Wang Y., Li Y., Chen G., Li J., Qiu Y.*, Waterhouse G.I.N., Gu L.*, Lin Z., Guo L.*

Energy & Environmental Science, 2024, 17, 332–343 DOI →

Hydrogen Spillover Induced PtCo/CoO_x Interfaces for Enhanced CO Oxidation at Low Temperatures in Humid Conditions

Lin J., Zhao S., Yang J., Huang W.-H., Chen C.-L., Chen T., Zhao Y., Chen G.*, Qiu Y.*, Gu L.

Small, 2024, 20, 2309181 DOI →

CuCl₂/FeCl₃ Bimetallic Photocatalyst for Sustainable Ethylene Production from Ethanol via Recoverable Redox Cycles

Xu S., Li M., Zhou B., Duan C., Zou F., Zou S., Long X., Chen G.*, Yan K.*

J. Phys. Chem. Lett., 2024, 15, 17, 4640–4646 DOI →

Automated pretreatment of environmental water samples and non-targeted intelligent screening of organic compounds based on machine experiments

Qiao Y., Wu M., Song N., Ge F., Yang T., Wang Y., Chen G.*

Environment International, 2024, 193, 109072 DOI →

Metal-Organic Framework Nanozyme Enabling Dual-Functional Photo-Induced Charge Transfer and Biomimetic Precipitation for Advanced Organic Photoelectrochemical Transistor

Xu K.X., Yuan C., Lou H., Chen F.Z., Zhang L., Chen G., Han D.M., Zhao W.W.*

Chinese Journal of Chemistry, 2024, 42(17), 1999–2004 DOI →

Metal-organic polymer enables efficient organic photoelectrochemical transistor biosensing

Yuan C., Wu Q., Xu K.X., Liu X.S., Lou H., Xu Y.T., Li Z., Meng Y., Li T., Ban R., Chen G., Zhao W.W.*

Biosensors and Bioelectronics, 2024, 257, 116346 DOI →

Online sequential analysis of volatile and semivolatile organic compounds in water matrices by double robotic sample preparations and dual-channel comprehensive two-dimensional GC

Wu M., Ma Q., Li M., Zhou J., Xu J., Waterhouse G.I.N., Song N., Zhao W.W., Chen G.*

Journal of Chromatography A, 2024, 1726, 464963 DOI →

Photoresponsive hydrogen-bonded organic frameworks-enabled organic photoelectrochemical transistors for sensitive bioanalysis

Yin P., Li Z., Wu Q., Hu J., Chen F.Z., Chen G., Lin P., Han D.M., Zhao W.W.*

Analytical Chemistry, 2024, 96(5), 2135–2141 DOI →

The reaction mechanism and kinetics of H₂O₂ production on graphene modified by oxygen functional groups: the effect of an aqueous environment

Zhang S., Jiang F., Zheng Y., Tu W., Fu S., Chen G., Zhao Y.*

New Journal of Chemistry, 2024, 48(40), 17436–17444 DOI →

2023

Solar-driven efficient heterogeneous subminute water disinfection nanosystem assembled with fingerprint MoS₂ Nature Water

Wu T., Liu B., Liu C., Wan J., Yang A., Liu K., Shi F., Zhao J., Lu Z., Chen G., Pei A., Hwang H.Y., Cui Y.*

Nature Water, 2023, 1(5), 462–470

Toward more efficient carbon-based electrocatalysts for H₂O₂ synthesis: roles of cobalt and carbon defects in two-electron ORR

Zheng Y., Wang P., Huang W.-H., Chen C.-L., Jia Y., Dai S., Li T., Zhao Y., Qiu Y., Waterhouse G.I.N., Chen G.*

Nano Letters, 2023, 23, 3, 1100–1108 DOI →

Nanograin-Boundary-Abundant Cu₂O-Cu Nanocubes with High C2+ Selectivity during Electrochemical CO₂ Reduction at 500 mA/cm²

Wu Q., Du R., Wang P., Waterhouse G.I.N., Li J., Qiu Y., Yan K., Zhao Y., Zhao W.-W., Tsai H.-J., Chen M.-C., Hung S.-F.*, Wang X.*, Chen G.*

ACS Nano, 2023, 17, 13, 12884–12894 DOI →

Quenching-induced defect-rich platinum/metal oxide catalysts promote catalytic oxidation

Chong Y., Chen T., Li Y., Lin J., Huang W.-H., Chen C.-L., Jin X., Fu M., Zhao Y., Chen G.*, Wei J.*, Qiu Y.*, Waterhouse G.I.N., Ye D., Lin Z., Guo L.

Environmental Science & Technology, 2023, 57, 14, 5831–5840 DOI →

Cu-C(O) Interfaces Deliver Remarkable Selectivity for CO₂ Reduction to C2+ Products at 500 mA/cm²

Du R., Wu Q., Zhang S., Wang P., Li Z., Qiu Y., Yan K., Waterhouse G.I.N., Wang P., Li J., Zhao Y.*, Zhao W.-W.*, Wang X.*, Chen G.*

Small, 2023, 19, 28, 2301289 DOI →

CeO₂/Cu₂O/Cu Tandem Interfaces for Efficient Water–Gas Shift Reaction Catalysis

Li Z., Wang M., Jia Y., Du R., Li T., Zheng Y., Chen M., Qiu Y., Yan K., Zhao W.-W., Wang P., Waterhouse G.I.N., Dai S.*, Zhao Y.*, Chen G.*

ACS Applied Materials & Interfaces, 2023, 15, 26, 31584–31594 DOI →

Atomic-Interface Effect of Single-Atom Ru/CoO_x for Selective Electrooxidation of 5-Hydroxymethylfurfural

Gu W., Pei A.*, Zhang S., Jiang F., Jia Y.*, Qin Q., Du R., Li Z., Liu R., Qiu Y., Yan K., Zhao Y., Liang C.*, Chen G.*

ACS Applied Materials & Interfaces, 2023, 15, 23, 28036–28043 DOI →

Hydride-doped Ag₁₇Cu₁₀ nanoclusters as high-performance electrocatalysts for CO₂ reduction

Sun X., Wang P., Yan X., Guo H., Wang L., Xu Q., Yan B., Li S., He J.*, Chen G.*, Shen H.*, Zheng N.

iScience, 2023, 26, 10, 107850

Theoretical and experimental study on the dehydrogenation of propane by oxygen vacancy caused by γ-Al₂O₃ with the assistance of S

Chen T., Zhao S., Lin J., Chong Y., Li Y., Zhao Y., Chen G.*, Qiu Y.

Surfaces and Interfaces, 2023, 42, 103399 DOI →

Reversible Stacking of 2D ZnIn₂S₄ Atomic Layers for Enhanced Photocatalytic Hydrogen Evolution

Wu L., Li M., Zhou B., Xu S., Yuan L., Wei J., Wang J., Zou S., Xie W., Qiu Y., Chen G., Yan K.*

Small, 2023, 19(42), 2303821 DOI →

Synergistic effects of heterointerface and surface Br vacancies in ultrathin 2D/2D H₂WO₄/Cs₂AgBiBr₆ for efficient CO₂ photoreduction to CH₄

Zhou B., Xu X., Li M., Wu L., Xu S., Yuan L., Chong Y., Xie W., Liu P., Ye D., Chen G., Qiu Y.*, Yan K.*

Chemical Engineering Journal, 2023, 468, 143754 DOI →

Strain-Engineering of Mesoporous Cs₃Bi₂Br₉/BiVO₄ S-Scheme Heterojunction for Efficient CO₂ Photoreduction

Zhou B., Xu S., Wu L., Li M., Chong Y., Qiu Y., Chen G., Zhao Y., Feng C., Ye D., Chen G.*, Yan K.*

Small, 2023, 19(29), 2302058 DOI →

Functional metal–organic frameworks for maximizing transconductance of organic photoelectrochemical transistor at zero gate bias and biological interfacing application

Gao G., Chen J.H., Jing M.J., Hu J., Xu Q., Wang C.S., Zhou H., Lin P., Chen G., Zhao W.W.*

Advanced Functional Materials, 2023, 33(22), 2300580 DOI →

Polymer dot-gated accumulation-type organic photoelectrochemical transistor for urea biosensing

Yuan C., Xu Y.T., Huang Y.T., Zhou H., Jiang X.W., Ju P., Zhu Y.C., Zhang L., Chen G., Zhao W.W.*

ACS Sensors, 2023, 8(4), 1835–1840 DOI →

Photodehydration of Ethanol Mediated by CuCl₂–Ethanol Complex

Tang H., Xu S., Li M., Wu L., Duan C., Luo H., Zhou B., Rao M., Qiu Y., Chen G.*, Yan K.*

J. Phys. Chem. Lett., 2023, 14(11), 2750–2757 DOI →

Biomolecules-incorporated metal-organic frameworks gated light-sensitive organic photoelectrochemical transistor for biodetection

Li C.J., Hu J., Gao G., Chen J.H., Wang C.S., Zhou H., Chen G., Qu P., Lin P., Zhao W.W.*

Advanced Functional Materials, 2023, 33(8), 2211277 DOI →

2022

Molecular Assembled Electrocatalyst for Highly Selective CO₂ Fixation to C2+ Products

Wang P., Li T., Wu Q., Du R., Zhang Q., Huang W.-H., Chen C.-L., Fan Y., Chen H., Jia Y., Dai S., Qiu Y., Yan K., Meng Y., Waterhouse G.I.N., Gu L.*, Zhao Y.*, Zhao W.-W.*, Chen G.*

ACS Nano, 2022, 16, 10, 17021–17032 DOI →

In Situ Engineering of the Cu⁺/Cu⁰ Interface to Boost C2+ Selectivity in CO₂ Electroreduction

Du R., Li T.*, Wu Q., Wang P., Yang X., Fan Y., Qiu Y., Yan K., Wang P., Zhao Y.*, Zhao W.-W.*, Chen G.*

ACS Applied Materials & Interfaces, 2022, 14, 32, 36527–36535 DOI →

Engineering cobalt oxide with coexisting cobalt defects and oxygen vacancies for enhanced catalytic oxidation of toluene

Li Y., Chen T., Zhao S., Wu P., Chong Y., Li A., Zhao Y., Chen G., Jin X.*, Qiu Y.*, Ye D.

ACS Catalysis, 2022, 12, 9, 4906–4917 DOI →

Perovskite Cs₃Bi₂I₉ Hexagonal Prisms with Ordered Geometry for Enhanced Photocatalytic Hydrogen Evolution

Li M., Xu S., Wu L., Tang H., Zhou B., Xu J., Yang Q., Zhou T., Qiu Y., Chen G., Waterhouse G.I.N., Yan K.*

ACS Energy Letters, 2022, 7, 10, 3370–3377 DOI →

Unveiling the water-resistant mechanism of Cu(I)-O-Co interfaces for catalytic oxidation

Zhao S., Wu P., Lin J., Li Y., Li A., Jin X., Chen Y., Zhao B., Zhao Y.*, Chen G., Qiu Y.*, Ye D., Yang S.

Chemical Engineering Journal, 2022, 429, 132219 DOI →

Alkaline Phosphatase-Mediated Bioetching of CoOOH/BiVO₄ for Signal-On Organic Photoelectrochemical Transistor Bioanalysis

Ban R., Li C.J., Xu Y.T., Zhu Y.Y., Ju P., Li Y.M., Du H.J., Hu J., Chen G., Lin P., Zhao W.W.*

Analytical Chemistry, 2022, 95(2), 1454–1460 DOI →

A dual plasmonic core–shell Pt/[TiN@TiO₂] catalyst for enhanced photothermal synergistic catalytic activity of VOCs abatement

Li A., Zhang Q., Zhao S., Chong Y., Wu P., Li Y., Jin X., Chen G., Qiu Y.*, Yang S.*

Nano Research, 2022, 15(8), 7071–7080 DOI →

Conformal surface-nanocoating strategy to boost high-performance film cathodes for flexible zinc-ion batteries as an amphibious soft robot

Yang J., Yang H., Ye C., Li T., Chen G., Qiu Y.*

Energy Storage Materials, 2022, 46, 472–481 DOI →

Light-Fueled Organic Photoelectrochemical Transistor for Probing Membrane Protein in an H-Cell

Li Z., Xu Y.T., Hu J., Liu X.N., Chen F.Z., Jia H.M., Zhou H., Chen G., Lin P., Zhao W.W.*

Advanced Materials Interfaces, 2022, 9(3), 2102040 DOI →

2021

Organic wastewater treatment by a single-atom catalyst and electrolytically produced H₂O₂

Xu J., Zheng X., Feng Z., Lu Z., Zhang Z., Huang W., Li Y., Vuckovic D., Li Y., Dai S., Chen G., Wang K., Wang H., Chen J.K., Mitch W., Cui Y.*

Nature Sustainability, 2021, 4, 233–241 DOI →

Activating metal oxide nanocatalysts for electrocatalytic water oxidation by quenching-induced near-surface metal atom functionality

Ye C., Liu J., Zhang Q., Jin X., Zhao Y.*, Pan Z., Chen G., Qiu Y.*, Ye D., Gu L., Waterhouse G.I.N., Guo L.*, Yang S.

J. Am. Chem. Soc., 2021, 143, 35, 14169–14177 DOI →

A Hydrothermally Stable Single-Atom Pt Catalyst on High-Entropy Oxide/Al₂O₃ for Enhanced Catalytic Activity

Zhao S., Lin J., Wu P., Ye C., Li Y., Li A., Jin X., Zhao Y., Chen G., Qiu Y.*, Ye D.

ACS Applied Materials & Interfaces, 2021, 13, 41, 48764–48773 DOI →

Engineering Co³⁺-rich crystal planes on Co₃O₄ hexagonal nanosheets for CO and hydrocarbons oxidation

Zhao S., Li T., Lin J., Wu P., Li Y., Li A., Chen T., Zhao Y., Chen G., Yang L., Meng Y., Jin X., Qiu Y.*, Ye D.

Chemical Engineering Journal, 2021, 420, 130448 DOI →

Regulating Light-Sensitive Gate of Organic Photoelectrochemical Transistor toward Sensitive Biodetection at Zero Gate Bias

Lu M.J., Chen F.Z., Hu J., Zhou H., Chen G., Yu X.D., Ban R., Lin P., Zhao W.W.*

Small Structures, 2021, 2(11), 2100087 DOI →

2020

A universal seeding strategy to synthesize single atom catalysts on 2D materials for electrocatalytic applications

Zhao S., Chen G., Zhou G., Yin L.-C., Veder J.-P., Johannessen B., Saunders M., Yang S.-Z.*, De Marco R., Liu C.*, Jiang S.P.*

Advanced Functional Materials, 2020, 30(6), 1906157 DOI →

Membrane‐Free Zn/MnO₂ Flow Battery for Large‐Scale Energy Storage

Li G., Chen W., Zhang H., Gong Y., Shi F., Wang J., Zhang R., Chen G., Jin Y., Wu T., Tang Z., Cui Y.*

Advanced Energy Materials, 2020, 10(9), 1902085 DOI →

Interfacial effects in hierarchically porous α-MnO₂/Mn₃O₄ heterostructures promote photocatalytic oxidation activity

Wu P., Dai S., Chen G., Zhao S., Xu Z., Fu M., Chen P., Chen Q., Jin X.*, Qiu Y.*, Yang S., Ye D.

Applied Catalysis B: Environmental, 2020, 268, 118418 DOI →

Cu²⁺-Decorated Porous Co₃O₄ Nanosheets for Photothermocatalytic Oxidation of Toluene

Zhao S., Jin X.*, Wu P., Zhao Y., Chen G., Li Y., Li A., Ye D., Qiu Y.*

ACS Applied Nano Materials, 2020, 3, 10, 10454–10461 DOI →

A synchronous nucleation and passivation strategy for controllable synthesis of Au₃₆(PA)₂₄

Ma X., Ma G., Qin L., Chen G., Chen S.*, Tang Z.*

Science China Chemistry, 2020, 63, 1777–1784 DOI →

2019

Wrinkled graphene cages as hosts for high-capacity Li metal anodes shown by cryogenic electron microscopy

Wang H., Li Y., Li Y., Liu Y., Lin D., Zhu C., Chen G., Yang A., Yan K., Chen H., Zhu Y., Li J., Liu J., Zhao J., Pei A., Kim K., Cui Y.*

Nano Letters, 2019, 19(2), 1326–1335 DOI →

Cryo-EM structures of atomic surfaces and host-guest chemistry in metal-organic frameworks

Li Y., Wang K., Zhou W., Li Y., Vila R., Huang W., Wang H., Chen G., Wu G.-H., Tsao Y., Li H., Cui Y., Bao Z.*, Wu H.W.*

Matter, 2019, 1(2), 428–438 DOI →

Self-selective catalyst synthesis for CO₂ reduction

Wang H., Liang M., Tang M., Chen G., Li Y., Chen W., Lin D., Zhang Z., Zhou G., Li J., Lu Z., Liu Y., Liu N., Zhao J., Cui Y.*

Joule, 2019, 3(8), 1927–1936 DOI →

Bismuth-containing semiconductors for photoelectrochemical sensing and biosensing

Yu S.Y., Zhang L., Zhu L.B., Gao Y., Fan G.C., Han D.M., Chen G., Zhao W.W.*

Coordination Chemistry Reviews, 2019, 393, 9–20 DOI →

Improved Oxygen Reduction Reaction Activity of Nanostructured CoS₂ through Electrochemical Tuning

Zhao W.W., Bothra P., Lu Z., Li Y., Mei L.P., Liu K., Zhao Z., Chen G., Back S., Siahrostami S., Nørskov J.K., Zheng G.*

ACS Applied Energy Materials, 2019, 2(12), 8605–8614 DOI →

Liposome-mediated in situ formation of AgI/Ag/BiOI Z-scheme heterojunction on foamed nickel electrode for cathodic liposomal photoelectrochemical bioanalysis

Yu S.Y., Mei L.P., Xu Y.T., Xue T.Y., Fan G.C., Han D.M., Chen G., Zhao W.W.*

Analytical Chemistry, 2019, 91(6), 3800–3804 DOI →

Unravelling degradation mechanisms and atomic structure of organic-inorganic halide perovskites by cryo-EM

Li Y., Zhou W., Li Y., Huang W., Zhang Z., Chen G., Wang H., Wu G.-H., Zhu Y., Cui Y.*, Yang Y.*

Joule, 2019, 3(11), 2854–2866 DOI →

2018

High-efficiency oxygen reduction to hydrogen peroxide catalysed by oxidized carbon materials Nature Catal.

Lu Z.⁺, Chen G.⁺, Siahrostami S.⁺, Chen Z., Liu K., Xie J., Liao L., Wu T., Lin D., Liu Y., Jaramillo T.F., Nørskov J.K., Cui Y.*

Nature Catalysis, 2018, 1(2), 156–162 DOI →

Efficient electrocatalytic CO₂ reduction on a three-phase interface Nature Catal.

Li J., Chen G., Zhu Y., Liang Z., Pei A., Wu C.-L., Wang H., Lee H.R., Liu K., Chu S., Cui Y.*

Nature Catalysis, 2018, 1(8), 592–600 DOI →

A manganese–hydrogen battery with potential for grid-scale energy storage Nature Energy

Chen W., Li G., Pei A., Li Y., Liao L., Wang H., Wan J., Liang Z., Chen G., Zhang H., Wang J., Cui Y.*

Nature Energy, 2018, 3(5), 428–435 DOI →

Solubility-mediated sustained release enabling nitrate additive in carbonate electrolytes for stable lithium metal anode Nat. Commun.

Liu Y., Lin D., Li Y., Chen G., Pei A., Nix O., Li Y., Cui Y.*

Nature Communications, 2018, 9, 3656 DOI →

Interfacing with silica boosts the catalysis of copper Nat. Commun.

Xu C.⁺, Chen G.⁺, Zhao Y., Liu P., Duan X., Gu L., Fu G., Yuan Y., Zheng N.*

Nature Communications, 2018, 9, 3367 DOI →

Lithium electrochemical tuning for electrocatalysis

Lu Z., Jiang K., Chen G., Wang H., Cui Y.*

Advanced Materials, 2018, 30(48), 1800978 DOI →

Shell-protective secondary silicon nanostructures as pressure-resistant high-volumetric-capacity anodes for lithium-ion batteries

Wang J., Liao L., Li Y., Zhao J., Shi F., Yan K., Pei A., Chen G., Li G., Lu Z., Cui Y.*

Nano Letters, 2018, 18(11), 7060–7065 DOI →

Bulk heterojunction quasi-two-dimensional perovskite solar cell with 1.18 V high photovoltage

Wang H., Cheng G., Xie S., Zhao M., Qin S., Chan C.C.S., Qiu Y., Chen G., Wong K.S.*

ACS Applied Materials & Interfaces, 2018, 11(3), 2935–2943 DOI →

Synthesis and performance characterizations of transition metal single atom catalyst for electrochemical CO₂ reduction

Jiang K., Chen G., Wang H.

Journal of Visualized Experiments, 2018, 57380 DOI →

2017

Identifying the Active Surfaces of Electrochemically Tuned LiCoO₂ for Oxygen Evolution Reaction

Lu Z., Chen G., Li Y., Wang H., Xie J., Liao L., Liu C., Liu Y., Wu T., Li Y., Luntz A.C., Bajdich M., Cui Y.*

J. Am. Chem. Soc., 2017, 139(17), 6270–6276 DOI →

Surface fluorination of reactive battery anode materials for enhanced stability

Zhao J., Liao L., Shi F., Lei T., Chen G., Pei A., Sun J., Yan K., Zhou G., Xie J., Liu C., Li Y., Liang Z., Bao Z., Cui Y.*

J. Am. Chem. Soc., 2017, 139(33), 11550–11558 DOI →

Transition-metal single atoms in a graphene shell as active centers for highly efficient artificial photosynthesis

Jiang K., Siahrostami S., Akey A.J., Li Y., Lu Z., Lattimer J., Hu Y., Stokes C., Zhu M., Chen G., Nørskov J.K., Bao Z., Wang H.*

Chem, 2017, 3(6), 950–960 DOI →

2016

Interfacial electronic effects control the reaction selectivity of platinum catalysts Nature Mater.

Chen G.⁺, Xu C.⁺, Huang X., Ye J., Gu L., Li G., Tang Z., Wu B., Yang H., Zhao Z., Zhou Z., Fu G.*, Zheng N.*

Nature Materials, 2016, 15(5), 564–569 DOI →

Photochemical route for synthesizing atomically dispersed palladium catalysts Science

Liu P., Zhao Y., Qin R., Mo S., Chen G., Gu L., Chevrier D.M., Zhang P., Guo Q., Zang D., Wu B., Fu G.*, Zheng N.*

Science, 2016, 352(6287), 797–800 DOI →

Two distinctive energy migration pathways of monolayer molecules on metal nanoparticle surfaces

Li J., Qian H., Chen H., Zhao Z., Yuan K., Chen G., Miranda A., Guo X., Chen Y., Zheng N., Wong M.S.*, Lienau C.*

Nature Communications, 2016, 7, 10749 DOI →

Interfacial effects in PdAg bimetallic nanosheets for selective dehydrogenation of formic acid

Hu C., Mu X., Fan J., Ma H., Zhao X., Chen G., Zhou Z., Zheng N.*

ChemNanoMat, 2016, 2(1), 28–32 DOI →

2015

A nanoparticulate polyacetylene-supported Pd(II) catalyst combining the advantages of homogeneous and heterogeneous catalysts

Li H., Chen G., Duchesne P.N., Zhang P., Dai Y., Yang H., Wu B., Liu S., Xu C., Zheng N.*

Chinese Journal of Catalysis, 2015, 36(9), 1560–1572 DOI →

Corrections to Surface Reconstruction and Reactivity of Platinum–Iron Oxide Nanoparticles

Duchesne P.N., Chen G., Zhao X., Zheng N., Zhang P.

J. Phys. Chem. C, 2015, 119(2), 1269–1269 DOI →

2014

Interfacial effects in iron-nickel hydroxide–platinum nanoparticles enhance catalytic oxidation Science

Chen G., Zhao Y., Fu G.*, Duchesne P.N., Gu L.*, Zheng Y., Weng X., Chen M., Zhang P., Pao C.-W., Lee J.-F., Zheng N.*

Science, 2014, 344(6183), 495–499 DOI →

Electrostatic self-assembling formation of Pd superlattice nanowires from surfactant-free ultrathin Pd nanosheets

Hu C., Lin K., Wang X., Liu S., Yi J., Tian Y., Wu B., Chen G., Yang H., Dai Y., Li H., Zheng N.

J. Am. Chem. Soc., 2014, 136, 37, 12856–12859 DOI →

Mechanisms for CO oxidation on Fe(iii)–OH–Pt interface: a DFT study

Zhao Y., Chen G., Zheng N., Fu G.

Faraday Discussions, 2014, 176, 381–392 DOI →

A hydride-induced-reduction strategy for fabricating palladium-based core–shell bimetallic nanocrystals

Wang X., Wu B., Chen G., Zhao Y., Liu P., Dai Y., Zheng N.*

Nanoscale, 2014, 6(12), 6798–6804 DOI →

Surface reconstruction and reactivity of platinum–iron oxide nanoparticles

Duchesne P.N., Chen G., Zhao X., Zheng N., Zhang P.*

J. Phys. Chem. C, 2014, 118(49), 28861–28867 DOI →

2013

Shape-Controlled Synthesis of Surface-Clean Ultrathin Palladium Nanosheets by Simply Mixing a Dinuclear Pd^I Carbonyl Chloride Complex with H₂O

Li H., Chen G., Yang H., Wang X., Liang J., Liu P., Chen M., Zheng N.*

Angewandte Chemie International Edition, 2013, 52(32), 8368–8372 DOI →

Local structure, electronic behavior, and electrocatalytic reactivity of CO-reduced platinum–iron oxide nanoparticles

Duchesne P.N., Chen G., Zheng N., Zhang P.*

J. Phys. Chem. C, 2013, 117(49), 26324–26333 DOI →

Supported monodisperse Pt nanoparticles from Pt₃(CO)₆ clusters for investigating support–Pt interface effect in catalysis

Chen G., Yang H., Wu B., Zheng Y., Zheng N.*

Dalton Transactions, 2013, 42(35), 12699–12705 DOI →

Synthesis of ultrathin nitrogen-doped graphitic carbon nanocages as advanced electrode materials for supercapacitor

Tan Y., Xu C., Chen G., Liu Z., Ma M., Xie Q., Zheng N., Yao S.*

ACS Applied Materials & Interfaces, 2013, 5(6), 2241–2248 DOI →

Surfactant-Concentration-Dependent Shape Evolution of Au–Pd Alloy Nanocrystals from Rhombic Dodecahedron to Trisoctahedron and Hexoctahedron

Zhang J., Hou C., Huang H., Zhang L., Jiang Z., Chen G., Jia Y., Kuang Q., Xie Z.*, Zheng L.*

Small, 2013, 9(4), 538–544 DOI →

Solvent effect on the synthesis of monodisperse amine-capped Au nanoparticles

Wu B., Yang H., Huang H., Chen G., Zheng N.*

Chinese Chemical Letters, 2013, 24(6), 457–462 DOI →

2012

Facile synthesis of manganese-oxide-containing mesoporous nitrogen-doped carbon for efficient oxygen reduction

Tan Y., Xu C., Chen G., Fang X., Zheng N., Xie Q.*

Advanced Functional Materials, 2012, 22(21), 4584–4591 DOI →

Carbon monoxide-controlled synthesis of surface-clean Pt nanocubes with high electrocatalytic activity

Chen G., Tan Y., Wu B., Fu G., Zheng N.*

Chemical Communications, 2012, 48(22), 2758–2760 DOI →

A graphene–platinum nanoparticles–ionic liquid composite catalyst for methanol-tolerant oxygen reduction reaction

Tan Y., Xu C., Chen G., Zheng N., Xie Q.*

Energy & Environmental Science, 2012, 5(5), 6923–6927 DOI →

Controlled synthesis and enhanced catalytic and gas-sensing properties of tin dioxide nanoparticles with exposed high-energy facets

Wang X., Han X., Xie S., Kuang Q., Jiang Y., Zhang S., Mu X., Chen G., Xie Z.*, Zheng L.*

Chemistry – A European Journal, 2012, 18(8), 2283–2289 DOI →

Synthesis of spatially uniform metal alloys nanocrystals via a diffusion controlled growth strategy: the case of Au-Pd alloy trisoctahedral nanocrystals with tunable composition

Zhang J., Zhang L., Jia Y., Chen G., Wang X., Kuang Q., Xie Z.*, Zheng L.*

Nano Research, 2012, 5(9), 618–629 DOI →

2011

Freestanding palladium nanosheets with plasmonic and catalytic properties Nature Nanotech.

Huang X., Tang S., Mu X., Dai Y., Chen G., Zhou Z., Ruan F., Yang Z., Zheng N.*

Nature Nanotechnology, 2011, 6(1), 28–32 DOI →

Au/Pt and Au/Pt₃Ni nanowires as self-supported electrocatalysts with high activity and durability for oxygen reduction

Tan Y., Fan J., Chen G., Zheng N., Xie Q.*

Chemical Communications, 2011, 47(42), 11624–11626 DOI →

以下内容用于概览课题组的知识产权布局，便于与论文成果一并浏览。

25专利申请

10已授权专利

1PCT 申请

2成果转化

电催化与反应系统

课题组围绕电化学氧化/还原体系、催化剂-电极集成以及反应-分离耦合过程，形成了可持续化学制造相关的专利布局。

资源回收与循环利用

专利工作还覆盖废液碱金属回收、塑料升级再生、污水处理以及面向能源与环境场景的循环经济工艺设计。

知识产权成果概览

多项发明专利已获得授权。
布局中包含 1 项国际 PCT 申请。
已有 2 项技术完成转化落地。

合作联系

如需获取详细专利清单、技术许可或产学研合作信息，请联系陈光需老师：cgx08(at)scut.edu.cn。

专利清单（部分）

以下列出目前已整理到网站中的 18 项代表性专利 / 申请，按您提供的顺序展示。

陈光需；吴祺祺；杜瑞安；王鹏；李正健；丘勇才；严克友；一种共轭导电聚合物改性铜基催化剂及其制备方法与应用，发明专利，2021115356288。
丘勇才；邬鹏；陈光需；严克友；一种光-热催化空气净化装置，发明专利，2020104815810。
吴曼曼；陈光需；刘淑敏；一种用于吹扫捕集中高效消泡装置及方法，发明专利，2023105286409。
陈光需；赵伟伟；杜瑞安；李正健；宾宇良；一种 CuO 纳米片及其自上而下的制备方法与应用，发明专利，2019111558601。
吴曼曼；陈光需；刘淑敏；一种在线多基质内 VOCs 分析装置及方法，发明专利，2022111086886。
陈光需；陈阳东；杜瑞安；郑远杰；吴祺祺；一种燃料电池气体扩散层及其制备方法与应用，发明专利，2023103750827。
陈光需；古雯蕾；梁程；李正健；丘勇才；严克友；一种负载型功能金属纳米团簇的低温冷冻光化学制备方法及得到的产品与应用，发明专利，2022109955648。
陈光需；裴安；李正健；丘勇才；严克友；一种用于生物质升级和塑料降解的电催化剂及其制备方法与应用，PCT 或外国申请，PCT/CN2023/095893。
陈光需；郑远杰；一种含有 3d 金属单原子和氮、氧共掺杂的碳材料的制备方法与应用，发明专利，2021113490526。
陈光需；裴安；李正健；丘勇才；严克友；一种用于生物质升级和塑料降解的电催化剂及其制备方法与应用，发明专利，2023104960894。
陈光需；杜瑞安；吴祺祺；王鹏；李正健；丘勇才；严克友；用于大电流二氧化碳电催化产乙烯的石墨烯量子点负载 CuO 催化剂及其制备方法与应用，发明专利，2023103073272。
陈光需；吴祺祺；杜瑞安；王鹏；李正健；丘勇才；严克友；一种富含 Cu0/Cu+ 界面活性位点的铜基催化剂及其制备方法与应用，发明专利，2023101582935。
陈光需；张改草；陈兆熙；赵文静；汪晓雪；一种草酸循环与氢氧化锂联产的废旧锂电正极材料回收方法，发明专利，202511663992.0。
陈光需；刘人凤；裴安；严克友；用于低电位产苯甲酸的富含 PtZn-ZnOx 界面活性位点的催化剂及其制备方法与应用，发明专利，202411994785.9。
陈光需；刘淑敏；裴安；周维玮；江逍逸；一种多元金属界面结构纳米催化剂 NM1NM2/C 及其制备方法与应用，发明专利，202510516554.5。
陈光需；王鹏；裴安；陈兆熙；用于碱性电化学合成中的电解质回收、产品分离和 CO₂ 捕获集成系统及其制备方法，发明专利，202411185786.9。
胡韩；胡泽凯；罗卓辉；蔡嘉标；陈欣婷；李存金；黄玉生；张礼松；陈光需；电镜样品制备系统及控制方法，发明专利，202410219362.3。
柳泽明；李宏强；陈光需；高繁；一种基于强化学习的金纳米棒 AuNRs 合成方法、系统，发明专利，202310426195.5。

类别	条件	年薪
至臻博后	博士毕业单位世界前 100	40 万元/年
A 类博后	博士毕业单位世界前 200	35 万元/年
B 类博后	已获得博士学位	30 万元/年

欢迎来到陈光需课题组

陈光需教授

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陈光需

工作经历

教育背景

电化学反应工程

电分离工程

资源循环与升级再生

全智能机器人实验平台

电催化与反应系统

资源回收与循环利用

知识产权成果概览

合作联系

专利清单（部分）

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联系课题组

陈光需课题组

欢迎来到陈光需课题组

陈光需 教授

最新动态

陈光需

工作经历

教育背景

电化学反应工程

电分离工程

资源循环与升级再生

全智能机器人实验平台

电催化与反应系统

资源回收与循环利用

知识产权成果概览

合作联系

专利清单（部分）

📘 无机化学

🧪 无机化学实验（I）

🎓 环境与能源学科前沿讲座

📚 每周组会

🎂 课题组活动

🏃 运动与健康

🔬 博士后招募（长期有效）

🎓 博士 / 硕士研究生招募

📬 联系方式

联系课题组

陈光需教授