2025

 

有7-8个好的研究体系，正在整理、拔高，待发表…

 

Emerging Supported Metal Atomic Clusters for Electrocatalytic Renewable Conversions. H Xu#(硕士生), W Zhao#(硕士生), D Li*, S Ding, C Xiao*, L Zeng*. ACS Catalysis. 2025, 15, 2434-2458

 

Industrial electrosynthesis of hydrogen peroxide over p-block metal single sites. Y Gu, Y Tan, H Tan, Y Han, D Cheng, F Lin, Z Qian, L Zeng, S Zhang, ... Nature Synthesis, 2025, 1-8

 

2024

 

入职交大第1年：筹建实验室、测试平台和高端表征资源，组建科研团队

 

Oxophilic gallium single atoms bridged ruthenium clusters for practical anion-exchange membrane electrolyzer. C Zhou, J Shi, Z Dong, L Zeng, Y Chen, Y Han, L Li, W Zhang, Q Zhang, ... Nature Communications 2024, 15 (1), 6741

 

High-entropy alloy electrocatalysts go to (sub-) nanoscale. M Li, F Lin, S Zhang, R Zhao, L Tao, L Li, J Li, L Zeng, M Luo*, S Guo*. Science Advances 2024, 10 (23), eadn2877

 

Strong d−π Orbital Coupling of Co–C₄ Atomic Sites on Graphdiyne Boosts Potassium–Sulfur Battery Electrocatalysis，S Zhang, Y Kong, Y Gu, R Bai, M Li, S Zhao, M Ma, Z Li, L Zeng, D Qiu, ..., Journal of the American Chemical Society 2024, 146 (7), 4433-4443

 

Lanthanide-regulating Ru-O covalency optimizes acidic oxygen evolution electrocatalysis. L Li, G Zhang, C Zhou, F Lv, Y Tan, Y Han, H Luo, D Wang, Y Liu, C Shang, L Zeng, Q Huang, R Zeng, N Ye, M Luo, S Guo. Nature Communications 15 (1), 4974

 

 

2023

 

L Zeng, Z Zhao, Q Huang, C Zhou, W Chen, K Wang, M Li, F Lin, H Luo, Yu Gu, Lu Li, S Zhang, F Lv, G Lu, M Luo, S Guo*. Single-Atom Cr-N₄ Sites with High Oxophilicity Interfaced with Pt Atomic Clusters for Practical Alkaline Hydrogen Evolution Catalysis. Journal of the American Chemical Society, 2023, 145 (39), 21432-21441.

 

L Zeng, Y Chen, M Sun, Q Huang, K Sun, J Ma, J Li, H Tan, M Li, Y Pan, S Guo*. Cooperative Rh-O₅/Ni(Fe) Site for Efficient Biomass Upgrading Coupled with H₂ Production. Journal of the American Chemical Society, 2023, 145, 32, 17577-17587.

 

R Yu, R Shao, F Ning, Y Yu, J Zhang, XY Ma*, R Zhu, M Li, J Lai, Y Zhao, L Zeng*, J Zhang, Z Xia*. Electronic and Geometric Effects Endow PtRh Jagged Nanowires with Superior Ethanol Oxidation Catalysis. Small, 2023, 2305817.

 

H Zhang, Y Li, L Zeng*, Y Pan*. Atomic‐Level Regulation of Cu‐Based Electrocatalyst for Enhancing Oxygen Reduction Reaction: From Single Atoms to Polymetallic Active Sites. Small, 2023, 2307384

 

F Lin, M Li, L Zeng, M Luo*, S Guo*. Intermetallic Nanocrystals for Fuel-Cells-Based Electrocatalysis. Chemical Reviews, 2023, 123, 22, 12507-12593

 

H Tan, P Zhou, M Liu, Q Zhang, F Liu, H Guo, Y Zhou, Y Chen, L Zeng, L Gu, Z Zheng, M Tong, S Guo* Photocatalysis of water into hydrogen peroxide over an atomic Ga-N₅ site. Nature Synthesis 2 (6), 557-563

 

K Wang, J Zhou, M Sun, F Lin, B Huang, F Lv, L Zeng, Q Zhang, L Gu, S Guo. Cu‐Doped Heterointerfaced Ru/RuSe₂ Nanosheets with Optimized H and H₂O Adsorption Boost Hydrogen Evolution Catalysis. Advanced Materials 35 (23), 2300980

 

Z Liu, G Xu, L Zeng, W Shi, Y Wang, Y Sun, Y Yu, H He. Anchoring Pt-doped PdO nanoparticles on γ-Al2O3 with highly dispersed La sites to create a methane oxidation catalyst. Applied Catalysis B: Environmental 324, 122259

 

2022

 

L Zeng, Z Zhao, F Lv, Z Xia, SY Lu, J Li, K Sun, K Wang, Y Sun, Q Huang, G Lv, S Guo. Anti-dissolution Pt single site with Pt(OH)(O₃)/Co(P) coordination for efficient alkaline water splitting electrolyzer. Nature Communications 13 (1), 3822.

 

L Zeng, W Chen, Q Zhang, S Xu*, W Zhang, F Lv, Q Huang, S Wang, K Yin, S Guo*. CoSe₂ Subnanometer Belts with Se Vacancies and Ni Substitutions for the Efficient Electrosynthesis of High-Value-Added Nitriles Coupled with Hydrogen Production. ACS Catalysis 12 (18), 11391-11401

K Sun, X Wu, Z Zhuang, L Liu, J Fang, L Zeng, J Ma, S Liu, J Li, R Dai, ... Interfacial water engineering boosts neutral water reduction. Nature Communications 13 (1), 6260

 

K Sun, K Yu, J Fang, Z Zhuang, X Tan, Y Wu, L Zeng, Z Zhuang, Y Pan, ... Nature‐Inspired Design of Molybdenum–Selenium Dual‐Single‐Atom Electrocatalysts for CO₂ Reduction. Advanced Materials 34 (44), 2206478

 

S Wang, Z Qian, Q Huang, Y Tan, F Lv, L Zeng, C Shang, K Wang, ... Industrial‐Level CO₂ Electroreduction Using Solid‐Electrolyte Devices Enabled by High‐Loading Nickel Atomic Site Catalysts. Advanced Energy Materials 12 (31), 2201278

 

K Yin, Y Chao, L Zeng, M Li, F Liu, S Guo, H Li. Ultrathin PtRu nanowires as efficient and stable electrocatalyst for liquid fuel oxidation reactions. Energy Material Advances

 

2020

 

K Sun, L Zhao, L Zeng, S Liu, H Zhu, Y Li, Z Chen, Z Zhuang, Z Li, Z Liu, ...Reaction environment self-modification on low-coordination Ni²⁺ octahedra atomic interface for superior electrocatalytic overall water splitting. Nano Research 13, 3068-3074

 

Z Liu, M Wang, S Liu, Z Chen, L Yang, K Sun, Y Chen, L Zeng, W Wang, ...Design of assembled composite of Mn₃O₄@ Graphitic carbon porous nano-dandelions: A catalyst for Low–temperature selective catalytic reduction of NOx with remarkable SO₂ resistance. Applied Catalysis B: Environmental 269, 118731

 

Z Liu, G Sun, C Chen, K Sun, L Zeng, L Yang, Y Chen, W Wang, B Liu, ...Fe-Doped Mn₃O₄ Spinel Nanoparticles with Highly Exposed Fe_oct–O–Mn_tet Sites for Efficient Selective Catalytic Reduction (SCR) of NO with Ammonia at Low …ACS Catalysis 10 (12), 6803-6809

 

Z Liu, C Chen, J Zhao, L Yang, K Sun, L Zeng, Y Pan, Y Liu, C Liu. Study on the NO₂ production pathways and the role of NO₂ in fast selective catalytic reduction DeNO_x at low-temperature over MnO_x/TiO₂ catalyst. Chemical Engineering Journal 379, 122288

 

2019

L Zeng, Z Liu, K Sun, Y Chen, J Zhao, Y Chen, Y Pan, Y Lu, Y Liu, C Liu. Multiple modulations of pyrite nickel sulfides via metal heteroatom doping engineering for boosting alkaline and neutral hydrogen evolution. Journal of Materials Chemistry A 7 (44), 25628-25640

 

L Zeng, K Sun, Y Chen, Z Liu, Y Chen, Y Pan, R Zhao, Y Liu, C Liu. Neutral-pH overall water splitting catalyzed efficiently by a hollow and porous structured ternary nickel sulfoselenide electrocatalyst. Journal of Materials Chemistry A 7 (28), 16793-16802

 

K Sun, L Zeng, S Liu, L Zhao, H Zhu, J Zhao, Z Liu, D Cao, Y Hou, Y Liu, ...Design of basal plane active MoS₂ through one-step nitrogen and phosphorus co-doping as an efficient pH-universal electrocatalyst for hydrogen evolution. Nano Energy 58, 862-869

 

Y Pan, K Sun, Y Lin, X Cao, Y Cheng, S Liu, L Zeng, WC Cheong, D Zhao, ...Electronic structure and d-band center control engineering over M-doped CoP (M= Ni, Mn, Fe) hollow polyhedron frames for boosting hydrogen production. Nano energy 56, 411-419

 

Z Yang, Y Liu, Y Li, L Zeng, Z Liu, X Liu, C Liu. Effect of preparation method on the bimetallic NiCu/SAPO-11 catalysts for the hydroisomerization of n-octane. Journal of Energy Chemistry 28, 23-30

 

2018

L Zeng, K Sun, X Wang, Y Liu, Y Pan, Z Liu, D Cao, Y Song, S Liu, C Liu. Three-dimensional-networked Ni₂P/Ni₃S₂ heteronanoflake arrays for highly enhanced electrochemical overall-water-splitting activity. Nano Energy 51, 26-36

 

L Zeng, K Sun, Z Yang, S Xie, Y Chen, Z Liu, Y Liu, J Zhao, Y Liu, C Liu. Tunable 3D hierarchical Ni₃S₂ superstructures as efficient and stable bifunctional electrocatalysts for both H₂ and O₂ generation. Journal of Materials Chemistry A 6 (10), 4485-4493

 

K Sun, Y Liu, Y Pan, H Zhu, J Zhao, L Zeng, Z Liu, C Liu. Targeted bottom-up synthesis of 1T-phase MoS₂ arrays with high electrocatalytic hydrogen evolution activity by simultaneous structure and morphology engineering. Nano Research 11, 4368-4379.