李松，秦高梧. 新工业革命视域下的“环境与能源材料”课程建设，《大学教育》，2022, 05, 60-62.

Y Yu, Z Qin, X Zhang, Y Chen, G Qin, S Li*. Far-From-Equilibrium Processing Opens Kinetic Paths for Engineering Novel Materials by Breaking Thermodynamic Limits. ACS Mater. Lett. 7 (2025) 319-332.2025-02-ACS Mater Lett.pdf 

李松，于艺弘，秦高梧. 热力学远平衡条件制备金属新材料，《东北大学学报》，2025, 46(8) 57-76.

T Zhang,  X Dai,  Y Yu,  X Cui,  Y Li,  G Qin,  W Qi,  S Li. Hydroxylation of Cu Sites Enhances Selectivity of Electrosynthesis of Ethanol via Tandem Reduction of CO₂. Small 21 (2025) 2410135.

Y Yu, Z Mei, Q Zhang, C Liu, Y Sun, H Zhang, G Qin. S Li. Electrified carbon cycling for neutralizing the steelmaking industry. Carbon Energy 7 (2025) e712.

X Cui, Y Yu, T Zhang, P Sutra, G Qin, S Li.  Pd-induced Cu site differentiation in Pd₁Cu/Ag-N-C catalyst enables asymmetric CO-CHO coupling for efficient CO₂‐to‐C₂H₄ conversion. Angewandte Chemie International Edition (2025) e21173.

Y Yu, X Cui, Y Hong, G Qin, S Li. Efficient electrosynthesis of CO-rich syngas over CeO₂-armored Ag nanowires towards sustainable steelmaking. Applied Catalysis B 373 (2025) 125352.

T Zhang, X Lu, W Qi*, G Qin, S LI*. Efficient Electroreduction of CO₂ to CO on Silver Single-atom Catalysts: Activity Enhancement through Coordinated Modulation of Polyaniline.Applied Catalysis B 349 (2024) 123896.

X Zhou, Y Liu, L Liu, Y Yu, J Xu, M Ruan*, S Li*, L Qian*. Unveiling and utilizing the reconstructing dynamics on nanoporous Ag-Bi for CO₂ electroreduction. Applied Catalysis B 343 (2024) 123552.

Z Li, M Gan, Y Wang, Y Liu, J Han, S Li, J Guo, L Qian. Superior activity and durability of Co₃Mo correlated with interfacial microenvironment for hydrogen evolution. Applied Catalysis B 358  (2024) 124395.

X Wei, Y Zhou, T Wang, H Dai, S Li. 3D interconnected hollow network of Ni-Zn-Cu nanosheets with multifold nanotwins for enhanced hydrazine oxidation. Applied Surface Science 688 (2025) 162357.

C Xu, Y Liu, H Guo, C Du, G Qin, S LI*. From FCC to BCC: Engineering Pd nuclearity in PdCu catalyst to enhance ethylene selectivity in acetylene hydrogenation. Inorganic Chemistry 64 (2025) 1893.

Y Yu, Y Yin, Y Liu, X Li, J Wang, G Qin, S Li. Inverse ZnO/AuCu Electrocatalyst Enabling Tunable CO-Rich Syngas for Electrified Carbon Cycling in Steelmaking. ACS Applied Materials & Interfaces 17 (2025) 62091–62099.

J Li, X Cui, Y Yu, L Qu, Y Liu, Y Wen, G Qin, S Li*. Electrified Reforming of Methane and Carbon Dioxide over Structured Ni/MgO-CeO₂/FeCrAl Wire Catalyst. Renewable Energy 242 (2025) 122453.

J Cai, X Tang, J Wang, T Zhang, Q Xie, K Mao, S Li, G Qin. Self-driving photothermal anode electrocatalyst towards the robust OER for water electrolysis. Renewable Energy 232 (2024) 121121.

Y Wang, Y Liu, P Sutra, G Qin, S Li. Freestanding High-Entropy Phosphide Electrodes for Industrial-Scale Hydrogen Evolution via Far-from-Equilibrium Electrosynthesis. Journal of Materials Chemistry A 13 (2025) 40305-40312.

W Zhang, S Yi, Y Yu, H Liu, A Kucernak, J Wu*, S Li*. Fe-based dual-atom catalysts for oxygen reduction reaction. Journal of Materials Chemistry A 12 (2024) 87-112.

Z Wang, Z Mei, L Wang, Q Wu, C Xia, S Li*, T Wang*, C Liu*. Insight into the activity of Ni-based thermal catalysts for dry reforming of methane. Journal of Materials Chemistry A 12 (2024) 24802-24838.

H Yin, L Qian, H Xiao, L Zhang, X Li, X Zhou, S Yuan, C Li, Q Lu, F Pan, L Zeng, J Guo, S Li. Shock-endurable and reversible evolution between CoOOH and intermediate governed by interfacial strain for fluctuating oxygen evolution. Chemical Engineering Journal 490 (2024) 151699.

Y Gong, X Yang, Y Zhang, J Li, L Xu, S Li*, H Fu*, X An. Constructing asymmetric-electron-density Pd-Zn dual-atoms on N-doped defective mesoporous carbon for electrochemical reduction of CO2. Chemical Engineering Journal 500 (2024) 156603.

J Zhan, Y Cao, J Lai, J Li, H Ma, S Li, P Liu, XQ Chen, Y Sun*. Design of High-Efficiency Hydrogen Evolution Catalysts in a Chiral Crystal. ACS Catalysis 14 (2024) 1030-1036.

X Wei, T Wang, H Dai, S Li. Nanotwin-Induced Strain Enhances the Catalytic Efficiency of Ni–Zn for Hydrazine Oxidation. ACS Applied Energy Materials 7 (2024) 5202–5208.

W Zhang, C Liu, A Kucernak, H Liu, J Wu, S Li. Synergizing Single-Atom and Carbon-Encapsulated Nanoparticles of Fe for Efficient Oxygen Reduction and Durable Zn–Air Batteries. ACS Applied Energy Materials 7 (2024) 5398–5407.

Y Liu, C Ma, J Zhang, H Zhou, G Qin, S Li. Tuning electronic structure of Pd by surface configuration of Al₂O₃ for hydrogenation reactions. Nanoscale 16 (2024) 335-342.

L Yang, J Wang, T Liu, H He, X Li, X Zhang, J Li, S Li, B Liu. Synergistic Catalysis of Rh Single‐Atom and Clusters Supported on TiO₂ Nanosheet Array for Highly Efficient Removal of CO and NO_x. Small Structures 5 (2024) 2400230.

SY Peng, W. Gong, YZ Tian, ZJ Gu, ZY Ni, S. Harjo, S Lu, GW Qin, S Li. Strengthening characteristics of CoCrNi alloys with different stacking fault energies. International Journal of Plasticity 191 (2025) 104401.

SY Peng, YZ Tian, ZY Ni, S Lu, S Li. Effect of grain size on the deformation mechanism and fracture behavior of a non-equiatomic CoCrNi alloy with low stacking fault energy. International Journal of Plasticity 182 (2024) 104129.

Y. Wang, H. Yang, Z. Zhang, X. Meng, T. Cheng, G. Qin and S. Li. Far-from-equilibrium electrosynthesis ramifies high-entropy alloy for alkaline hydrogen evolution. J. Mater. Sci. Technol. 166 (2023) 234–240.
一种热力学远平衡制备多孔高熵合金电极的方法，同步完成高熵合金化、多孔化和电极制备三个步骤，解决了由催化材料制备电极导致服役性能不好的问题。

C. Liu, D. Hao, J. Ye, S. Ye, F. Zhou, H. Xie, G. Qin, J. Xu, J. Liu, S. Li and C. Sun. Knowledge‐driven design and lab‐based evaluation of B‐doped TiO₂ photocatalysts for ammonia synthesis. Adv. Energy Mater., 2023, 13, 2204126.
人工智能驱动原子尺度上精确设计催化材料的一个例子。

Y Liu, C Xu, B Yang, X Meng, G Qin, S LI. Enhancing selectivity for semi-hydrogenation of Ni by periodic isolation in the MM’X structure. Catalysis Science & Technology 13 (2023) 5345-5350.

Y. Rao, Y. Wu, X. Dai, Y. Zhang, G. Qin, W. Qi, S. Li. A tale of two sites: neighboring atomically dispersed Pt sites cooperatively remove trace H₂ in CO-rich stream. Small 18 (2022) 2204611.
双原子催化，理解了孤立原子在相互接近时通过电子相互作用发生的协同催化现象。

Y. Yu, D. Wang, Y. Hong, T. Zhang, C. Liu, J. Chen, G. Qin, S. Li. Bulk-immiscible CuAg alloy nanorods prepared by phase transition from oxides for electrochemical CO₂ reduction. Chem. Commun. 58 (2022) 11163–11166. DOI:10.1039/D2CC04789F.
一种热力学远平衡制备方法，打破平衡热力学对CuAg合金溶解度的限制，实现了两种催化中心原子级混合的串联催化。

T. Zhang, Y. Wu, Y. Yu, Y. Li, G. Qin, S. Li. High throughput screening driven discovery of Mn5Co10Fe30Ni55Ox as electrocatalyst for water oxidation and electrospinning synthesis. Appl. Surf. Sci. 588 (2022) 152959. DOI: 10.1016/j.apsusc.2022.152959.
采用高通量的制备与检测方法，确定了一种高熵氧化物的OER催化剂。

Y. Liu, H. Chen, C. Xu, Y. Sun, S. Li, M. Jiang, G. Qin. Control the catalytic activity of nano-Au through tailoring the Fermi level of support. Small 15 (2019) 1901789.
金属-氧化物界面电子相互作用：金属粒子的局域电荷密度可由氧化物载体的Fermi能级调控，从而针对性地优化金属催化性质。

X Cao, J Zhou, H Wang, S Li, W Wang, G Qin. Abnormal thermal stability of sub-10 nm Au nanoparticles and their high catalytic activity. J. Mater. Chem. A 7 (2019) 10980–10987.
界面相互作用调控Au纳米材料的热稳定性，基于微弧氧化技术制备了高热稳定性纳米Au催化剂，强烈的界面锚定效果抑制了纳米Au的熟化与长大。

C Xu, Y Wu, S Li, J Zhou, J Chen, M Jiang, H Zhao, G Qin. Engineering the epitaxial interface of Pt-CeO₂ by surface redox reaction guided nucleation for low temperature CO oxidation. J. Mater. Sci. Technol. 40 (2020) 39–46
针对金属与氧化物之间的界面电子相互作用在催化过程中的动态特性，通过晶体学取向控制获得共格界面，消除电子在两相间动态转移的势垒。

C Xu, Y Zhang, J Chen, S LI*, YW Zhang, G Qin, Carbon-CeO₂ interface confinement enhances the chemical stability of Pt nanocatalyst for catalytic oxidation reactions, Sci. China Mater. 64 (2021) 128-136.

F. Cao, X. Yang, C. Shen, X. Li, J. Wang, G. Qin, S. Li, X. Pang, G. Li. Electrospinning synthesis of transition metal alloy nanoparticles encapsulated in nitrogen-doped carbon layers as an advanced bifunctional oxygen electrode. J. Mater. Chem. A 8 (2020) 7245–7252.
界面电子相互作用：发展了包覆FeCoNi合金的N掺杂碳材料，实现了OER和ORR的双重电催化功能。

Xiaoqing Cao, Jun Zhou, Zhipeng Zhai, Song Li, Guo Yuan, Gaowu Qin. Synchronous Growth of Porous MgO and Half-Embedded Nano-Ru on a Mg Plate: A Monolithic Catalyst for Fast Hydrogen Production. ACS Sustainable Chem. Eng. 9 (2021) 3616-3623.
关键词：金属表面功能涂层、整体式催化剂、金属-氧化物界面、on-off feature

S. Li, J. Cai, Y. Liu, M. Gao, F. Cao, G. Qin. Tuning orientation of doped hematite photoanodes for enhanced photoelectrochemical water oxidation. Sol. Energy Mater. Sol. Cells 2018, 179, 328–333.
晶体学取向调控氧化物的光电化学性质，利用特定取向的高电导延长光生载流子的平均自由程。

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