简介:高中毕业于天津市耀华中学,本科毕业于天津大学,博士毕业于北京化工大学,曾在天津理工大学从事博士后研究,后加入深思实验室继续博士后研究。以第一/共同第一/通讯作者身份在 ACS Catalysis, Journal of Energy Chemistry, Chemical Engineering Journal, Small, Science China Materials, Nanoscale, ACS Applied Energy Materials 等国际知名期刊发表学术论文 13 篇,其中 ESI 高被引论文3 篇,被引1100余次,H指数15。
个人荣誉:北京化工大学研究“优秀毕业生”
论文情况:
1. Yongji Qin, Xu Han, Yaping Li, Aijuan Han, Wenxian Liu*, Haijun Xu* and Junfeng Liu*,Hollow mesoporous metal-organic frameworks with enhanced diffusion for highly efficient catalysis. ACS Catalysis, 2020, 10, 5973. (IF:12.9,JCR 1区,中科院1区TOP,被引91次)
2. Yongji Qin†, Fanping Wang†, Jing Shang, Muzaffar Iqbal, Aijuan Han*, Xiaoming Sun, Haijun Xu*, Junfeng Liu*, Ternary NiCoFe-layered double hydroxide hollow polyhedrons as highly efficient electrocatalysts for oxygen evolution reaction. Journal of Energy Chemistry, 2020, 43, 104. (IF:13.1,JCR 1区,中科院1区TOP,被引50次)
3. Yongji Qin,* Bingqing Wang, Yuan Qiu, Xijun Liu, Gaocan Qi, Shusheng Zhang, Aijuan Han,* Jun Luo and Junfeng Liu. Multi-shelled hollow layered double hydroxides with enhanced performance for the oxygen evolution reaction. Chemical Communications, 2021, 57, 2752. (IF:4.9,JCR 2区,中科院2区,被引21次)
4. Xianyun Peng,‡ Junrong Hou,‡ Yuying Mi, Jiaqiang Sun, Gaocan Qi,* Yongji Qin,* Shusheng Zhang, Yuan Qiu, Jun Luo, and Xijun Liu*. Bifunctional single-atomic Mn sites for energy-efficient hydrogen production. Nanoscale, 2021, 13, 4767. (IF:6.7,JCR 1区,中科院3区,被引25次,文章投稿时为中科院1区TOP)
5. Defeng Qi,† Shuai Liu,† Honghui Chen,† Shuhua Lai, Yongji Qin,* Yuan Qiu, Sheng Dai,* Shusheng Zhang, Jun Luo, and Xijun Liu*. Rh nanoparticle functionalized heteroatom-doped hollow carbon spheres for efficient electrocatalytic hydrogen evolution. Materials Chemistry Frontiers, 2021, 5, 3125. (IF:7,JCR 1区,中科院2区,被引25次,文章投稿时为中科院1区TOP)
6. Miaosen Yang, Jiaqiang Sun, Yongji Qin,* Hui Yang,* Shusheng Zhang, Xijun Liu,* and Jun Luo. Hollow CoFe-layered double hydroxide polyhedrons for highly efficient CO2 electrolysis. Science China Materials, 2022, 65, 536. (IF:8.1,JCR 1区,中科院2区,被引43次,文章投稿时为中科院1区TOP)
7. Shuai Liu, Mengmeng Jin, Jiaqiang Sun, Yongji Qin,* Sanshuang Gao, Yu Chen,* Shusheng Zhang, Jun Luo, Xijun Liu*. Coordination environment engineering to boost electrocatalytic CO2 reduction performance by introducing boron into single-Fe-atomic catalyst. Chemical Engineering Journal, 2022, 437, 135294. (IF:15.1,JCR 1区,中科院1区TOP,被引77次,ESI高被引论文)
8. Shangmeng Ge, Liwen Zhang, Junrong Hou, Shuai Liu, Yongji Qin*, Qian Liu, Xiaobing Cai, Zhiyong Sun*, Jun Luo, and Xijun Liu*. Cu2O-dervied PtCu nanoalloy toward energy-efficient hydrogen production via hydrazine electrolysis under large current density. ACS Applied Energy Materials, 2022, 5, 9487.(IF:6.4,JCR 1区,中科院3区,被引47次,ESI高被引论文,文章投稿时为中科院2区)
9. Yongji Qin*, Jun Luo*. Applications of Single-atom Catalysts in CO2 Conversion. Chemical Journal of Chinese Universities, 2022, 43, 20220300.(IF:1,JCR 4区,中科院4区)
10. Tianwei Wang, Sanshuang Gao, Tianran Wei, Yongji Qin*, Shusheng Zhang, Junyang Ding*, Qian Liu, Jun Luo, and Xijun Liu*. Co nanoparticles confined in mesoporous Mo/N co-doped polyhedral carbon frameworks towards high-efficiency oxygen reduction. Chemistry-A European Journal, 2023, 29, 202204034. (IF:4.3,JCR 2区,中科院2区,被引20次,ESI高被引论文)
11. Huijie Cao, Tianran Wei, Qian Liu, Shusheng Zhang, Yongji Qin*, Hao Wang, Jun Luo and Xijun Liu*. Hollow carbon cages derived from polyoxometalate-encapsuled metal-organic frameworks for energy-saving hydrogen production. ChemCatChem, 2023, 15, 202201615. (IF:4.5,JCR 2区,中科院3区,被引10次,ESI高被引论文)
12. Yongji Qin, Huijie Cao, Qian Liu, Shaoqing Yang, Xincai Feng, Hao Wang, Meiling Lian, Dongxing Zhang, Hua Wang, Jun Luo*, and Xijun Liu*. Multi-functional layered double hydroxides supported by nanoporous gold towards overall hydrazine splitting. Frontiers of Chemical Science and Engineering, 2024, 18, 6. (IF:4.5,JCR 2区,中科院3区,刚发表)
13. Qingying Shi, Ye Zhao, Meihan Liu, Feiyu Shi, Liuxing Chen, Xinru Xu, Jing Gao, Huabing Zhao, Fuping Lu, Yongji Qin*, Zhen Zhang*, and Meiling Lian*. Engineering Platelet Membrane-Coated Bimetallic MOFs as Biodegradable Nanozymes for Efficient Antibacterial Therapy. Small, 2023, 2309366. (IF:13.3,JCR 1区,中科院2区TOP,刚发表,文章投稿时为中科院1区TOP)
