副研究员（二级）/硕导。2018年10月于比利时根特大学获得化学工程博士学位（师从比利时皇家科学与艺术学院院士Guy B. Marin教授），2019至2021年于新加坡国立大学开展博士后研究，2021年10月加入中国科学院上海高等研究院工作。在Appl. Catal. B、ACS Catal.、Chem. Eng. J.等期刊发表SCI论文20余篇，申请中国发明专利1项。担任《低碳化学与化工》、Clean Energy Science and Technology期刊青年编委，曾任Catalysts、Processes等期刊客座编辑。

1. 化学链；

2. 二氧化碳捕集与催化转化；

3. 非二温室气体转化

1. 上海市浦东新区明珠计划菁英人才，2024；

1. 企业委托项目，“船用膜法碳捕集装备方案开发”，项目负责人，2024.11-2025.11；

2. 国家自然科学基金，面上项目，“多活性位协同Ni基纳米催化剂的构建及催化甲烷双重整反应的抗失活机制”，主要参与人，2025.01-2028.12；

3. 中国科学院，前瞻战略科技先导专项A类项目，“跨行业耦合与循环利用”，参与，2024.01-2028.09

1. 文章: 

[1] Hu, J.*; Jiang, Y.; Gao, Q.; Zhao, Y.; Dai, S.*; Li, X.; Wei, W.*, Material engineering of porous calcium oxide for boosting CO2 capture. Chem. Eng. J. 2025, 505, 15923[7]  

[2] Hu, J.; Poelman, H.; Theofanidis, S.-A.; Joos, J. J.; Detavernier, C.; Poelman, D.; Wei, W.; Galvita, V. V.*, High temperature H2S removal via CO2-assisted chemical looping over ZrO2-modified Fe2O[3]  Appl. Catal. B 2023, 330, 12259[1]  

[3] Hu, J.; Hongmanorom, P.; Chen, J.; Wei, W.; Chirawatkul, P.; Galvita, V. V.; Kawi, S.*, Tandem distributing Ni into CaO framework for isothermal integration of CO2 capture and conversion. Chem. Eng. J. 2023, 452, 139460. 

[4] Hu, J.; Hongmanorom, P.; Chirawatkul, P.; Kawi, S.*, Efficient integration of CO2 capture and conversion over a Ni supported CeO2-modified CaO microsphere at moderate temperature. Chem. Eng. J. 2021, 426, 13086[4]  

[5] Hu, J.; Galvita, V. V.; Poelman, H.; Wang, Z.; Marin, G. B.*; Kawi S.*, Coupling CO2 utilization and NO reduction in chemical looping manner by surface carbon. Appl. Catal. B 2021, 297, 12047[2]  

[6] Hu, J.; Hongmanorom, P.; Galvita, V. V.; Li, Z.; Kawi, S.*, Bifunctional Ni-Ca based material for integrated CO2 capture and conversion via calcium-looping dry reforming. Appl. Catal. B 2021, 284, 11973[4]  

[7] Longo, A.; Theofanidis, S.-A.; Cavallari, C.; Srinath, N. V.; Hu, J.; Poelman, H.*; Sabbe, M. K.; Sahle, C. J.; Marin, G. B.; Galvita, V. V., What makes Fe-modified MgAl2O4 an active catalyst support? Insight from X-ray Raman Scattering. ACS Catal. 2020, 10, 6613-662[2]  

[8] Hu, J.; Poelman, H.; Marin, G. B.; Detavernier, C.; Kawi, S.; Galvita, V. V.*, FeO controls the sintering of iron-based oxygen carriers in chemical looping CO2 conversion. J. CO2 Util. 2020, 40, 10121[6]  

[9] Hu, J.; Galvita, V. V.*; Poelman, H.; Detavernier, C.; Marin, G. B., Pressure-induced deactivation of core-shell nanomaterials for catalyst-assisted chemical looping. Appl. Catal. B 2019, 247, 86-9[9]  

[10] Hu, J.; Galvita, V. V.*; Poelman, H.; Detavernier, C.; Marin, G. B., Catalyst-assisted chemical looping auto-thermal dry reforming: Spatial structuring effects on process efficiency. Appl. Catal. B 2018, 231, 123-13[6]  

[11] Hu, J.; Galvita, V. V.*; Poelman, H.; Marin, G. B., Advanced chemical looping materials for CO2 utilization: A review. Materials 2018, 11, 118[7]  

[12] Hu, J.; Galvita, V. V.*; Poelman, H.; Detavernier, C.; Marin, G. B., A core-shell structured Fe2O3/ZrO2@ZrO2 nanomaterial with enhanced redox activity and stability for CO2 conversion. J. CO2 Util. 2017, 17, 20-3[1]  

[13] Hu, J.; Buelens, L.; Theofanidis, S.-A.; Galvita, V. V.*; Poelman, H.; Marin, G. B., CO2 conversion to CO by auto-thermal catalyst-assisted chemical looping, J. CO2 Util. 2016, 16, 8-1[6]  

2. 专利: 

[1] 胡佳玮，高强，孙楠楠，魏伟。一种多孔结构的钙基CO2吸附剂、制备方法及其应用，中国发明专利，2023，申请号: 2023107269200