·Paper Publications
- [11] Liu,Xuan,Han, Jiantao,Wang, Tanyuan,Liu, Jinjia,Shi, Hao,Li, Shenzhou,Liang, Jiashun,Zhang, Siyang.Li,Qing.Protrusion-Rich Cu@NiRu Core@shell Nanotubes for Efficient Alkaline Hydrogen Evolution Electrocatalysis.[Article].Small,2022,(32):2202496
- [12] Liu,Jianyun,Huang,Yunhui,Yang,Xiaoxuan,Shi,Hao,Duan,Shuo.Wu,Gang,Wang,Tanyuan,Li,Qing.Rationally Designing Efficient Electrocatalysts for Direct Seawater Splitting: Challenges, Achievements, and Promises.[Article].Angewandte Chemie International Edition,2022,(45):e202210753
- [13] Liang, Jiashun,Zhou,Xiaochun,Ma,Yanhang,Zhan,Changhong,Sun,Mingzi,Huang,Ju,Ning,Fandi.Huang,Xiaoqing,Huang,Bolong,Bu,Lingzheng,Li,Qing.Low-Coordination Trimetallic PtFeCo Nanosaws for Practical Fuel Cells.[Article].Advanced Materials,2022,(11):2208672
- [14] Lin,Zijie,Huang, Yunhui,Han, Jiantao,Lu, Gang,Xie, Linfeng, Xuan,Liang, Jiashun,Li, Shenzhou,Liu, Junyi.Li,Qing.Anti-Corrosive SnS2/SnO2 Heterostructured Support for Pt Nanoparticles Enables Remarkable Oxygen Reduction Catalysis via Interfacial Enhancement.[Article].Advanced Functional Materials,2023,(11):2211638
- [15] Liu,Jianyun,Wang,Guoxiong,Huang,Yunhui,Han,Jiantao,Cai,Zhao,Xie,Linfeng,Li,Shenzhou,Shi,Hao,Liu,Xuan.Wang,Tanyuan,Li,Qing.Reducible Co3+–O Sites of Co–Ni–P–Ox on CeO2 Nanorods Boost Acidic Water Oxidation via Interfacial Charge Transfer-Promoted Surface Reconstruction.[Article].ACS Catalysis,2023,(8):5194-5204
- [16] Liu,Xuan,Huang,Yunhui,Xiaoming,Wu,Han,Jiantao,Wang,Tanyuan,Priest,Cameron,Lu,Gang,Li,Shenzhou,Liang,Jiashun,Zhao,Zhonglong.Li,Qing.Inducing Covalent Atomic Interaction in Intermetallic Pt Alloy Nanocatalysts for High-Performance Fuel Cells.[Article].Angewandte Chemie International Edition,2023,(23):e202302134
- [17] Shi,Hao,Elbaz,Lior,Huang,Yunhui,Su,Dong,Wang,Chao,Cai,Zhao,Xuan,Shuxia,Liang,Jiashun,Li,Shenzhou,Chen,Weiwei,Liu,]Jianyun.Wang,Tanyuan,Li,Qing.A sodium-ion-conducted asymmetric electrolyzer to lower the operation voltage for direct seawater electrolysis.[Article].Nature Communications,2023,(1):3934
- [18] Lai,Jiaoyang,Huang,Yunhui,Yupei,Cai,Zhao,Lin,Zijie,Xie,Linfeng,Qin,Zhuhuang,Yan,Xiaoyu,Liu,Xuan,Chen,Shaoqing.Wang,Hsing-Lin,Li,Qing.Synergy between Intermetallic Pt Alloy and Porous Co–N4 Carbon Nanofibers Enables Durable Fuel Cells with Low Mass Transport Resistance.[Article].ACS Catalysis,2023,(18):11996-12006
- [19] Liu,Shuxia,Huang,Yunhui,Cai,Zhao,Li,Shenzhou,Liang,Jiashun,Lai,Jiaoyang,Shi,Hao,Liu,Jianyun,Liu,Xuan.Li,Qing.In Situ Dissociated Chalcogenide Anions Regulate the Bi-Catalyst/Electrolyte Interface with Accelerated Surface Reconstruction toward Efficient CO2 Reduction.[Article].ACS Catalysis,2023,(1):489-497
- [20] Liu,Xuan,Elbaz,Lior,Huang,Yunhui,Cai,Zhao,Su,Dong,Zhang,Siyang,Li,Shenzhou,Liang,Jiashun,Wang,Yuhan.Li,Qing.Introducing Electron Buffers into Intermetallic Pt Alloys against Surface Polarization for High-Performing Fuel Cells.[Article].Journal of the American Chemical Society,2024,(3):2033-2042