2024.

(1) Yaguang Li*;Bang Liu ; Dachao Yuan; Haixiao Wang; Qixuan Wu; Yachuan Wang; Junwei Wang; Xingyuan San; Yanhong Luo *; Jinhua Ye*;High-purity carbon monoxide production via photothermal formic acid decomposition over fluorite ZrO2[J].Nature Catalysis,2024,https://doi.org/10.1038/s41929-024-01249-7.High-Purity Carbon Monoxide Production via Photothermal Formic Acid Decomposition over Fluorite ZrO2.pdf

(2) Yaguang Li*; Fanqi Meng; Qixuan Wu; Dachao Yuan; Haixiao Wang; Bang Liu; Junwei Wang; Xingyuan San; Lin Gu; Qingbo Meng*;A Ni-O-Ag photothermal catalyst enables 103-m2 artificial photosynthesis with >17% solar-to-chemical energy conversion efficiency.[J].Science advances,2024,10(20):eadn5098-eadn5098.A Ni-O-Ag photothermal catalyst enables 103-m2 artificial photosynthesis with 17% solar-to-chemical energy conversion efficiency.pdf

(3) Kai Du; Jiaqi Guo; Chenxi Song; Xin Liu; Mingjun Chen; Dachao Yuan*; Runping Ye; Xingyuan San; Yaguang Li*; Jinhua Ye*;Persistent photothermal CO2 methanation without external energy input.Energy Environ. Sci,2024, Accepted Manuscript ;Persistent photothermal CO2 methanation without external energy input.pdf

(4) Qixuan Wu; Jialin Wang; Dachao Yuan; Yachuan Wang; Yaguang Li*;Yunna Guo; Zhibo Zhang*; Xingyuan San; Liqiang Zhang; and Jinhua Ye*;Ambient Sunlight Driven Photothermal Green Syngas Production at 100 m3 Scale by the Dynamic Structural Reconstruction of Iron Oxides with 38.7% Efficiency;https://doi.org/10.1002/adfm.202412562; Ambient sunlight driven photothermal green syngas production at 100 m3 scale by the dynamic structural reconstruction of iron oxides with 38.7% efficiency.pdf

(5) Dachao Yuan; Guanda Han; Zhixuan Wang; Jianguo Zhao; Kailuan Li; Pengfei Wang;Jianjun Hao; Yaguang Li* & Jinhua Ye*;Hybrid structure of iron single atoms and metallic titanium for photothermal ethanol steam reforming[J].Science China(Chemistry),2024,67(03):848-854. Hybrid struct...eam reforming_Dachao Yuan.pdf

(6) Peipei Du; Guoqiang Deng; Zhonghua Li; Junchuan Sun; Lu Wang; Yongqiang Yang; Jun Wang; Yaguang Li∗; Xiaoming Xu; Yuanming Zhang;Wangxi Liu; Gang Liu∗; Zhigang Zou; Zhaosheng Li∗;Effective CO2 activation of enriched oxygen vacancies for photothermal CO2 methanation[J].Journal of Materials Science & Technology,2024,189203-210. Effective CO2 activation of enriched oxygen vacancies for photothermal CO2 methanation.pdf

(7) Shangbo Ning*; Junwei Wang; Xiuting Wu; Ling Li; Senlin Zhang; Shaohua Chen; Xiaohui Ren; Linjie Gao; Yuchen Hao; Cuncai Lv; Yaguang Li* and Jinhua Ye*; Natural Sunlight-Driven CO2 Hydrogenation into Light Olefins at Ambient Pressure over Bifunctional Cu-Promoted CoFe Alloy Catalyst.DOI:10.1002/adfm.202400798. Natural Sunlight-Driven CO2Hydrogenation into Light Olefins at Ambient Pressure over Bifunctional Cu-Promoted CoFe Alloy Catalyst.pdf

(8) Xiangrui Kong; Tianhua Hao; Cuncai Lv; Zhanyu Li**; Fade Zhao; Shangbo Ning; Jinhua Ye**; Molybdenum-doped tungsten nitride coated with carbon shell and cobalt hydroxide nanosheets for efficient alkaline hydrogen evolution reaction[J]. Applied Surface Science, 2024, 664: 160261.;Molybdenum-doped tungsten nitride coated with carbon shell and cobalt hydroxide nanosheets for efficient alkaline hydrogen evolution reaction.pdf

(9) Jiarong Chang; Tianhua Hao; Cuncai Lv*; Maoyu Xu; Deyi Zhang;Linjie Gao; Shangbo Ning; Yaguang Li* and Jinhua Ye*; Solar heating catalytic formic acid dehydrogenation by graphene-porous foam-supported tungsten nitride nanoparticles[J]. Inorganic Chemistry Frontiers, 2024, 11(10): 2983-2989. Solar heating catalytic formic acid dehydrogenation by graphene-porous foam-supported tungsten nitride nanoparticles.pdf

(10) Jiarong Chang; Tianhua Hao;Cuncai Lv *; Maoyu Xu;Deyi Zhang;  Linjie Gao; Shangbo Ning; Yaguang Li * and Jinhua Ye*;Solar heating catalytic formic acid dehydrogenation by graphene-porous foamsupported tungsten nitride nanoparticles;10.1039/d4qi00590b; Solar heating catalytic formic acid dehydrogenation by graphene-porous foam-supported tungsten nitride nanoparticles.pdf