微波化工;
化工过程强化
化工过程强化(全英文)
无
2024年入选天津市第一批博士后创新岗位
1. 2024.01-2026.12,国家自然基金青年项目,分子尺度微波选择性加热特性的定量测量与理论建模,22308250,30万元,在研,主持.
2. 2023.11-2026.10,国家重点研发计划子课题,SiC载体表面杂多酸微波辅助可控构筑技术,2023YFB3810601,51万元,在研,主持.
3. 2024.01-2026.12,中国石油化工股份有限公司技术委托项目,基于原位荧光技术的微波强化分子筛晶化机制研究,94万元,在研,主持.
4. 2024.05-2025.11,浙江精工集成科技股份有限公司技术委托项目,聚丙烯腈基碳纤维的微波辅助预氧化工艺设计与开发,70万元,在研,主持.
5. 2022.8-2024.12,中国博士后科学基金特别资助(站前),微波纳米焊接技术中纳米热点的实验测量和理论建模,18万元,在研,主持.
6. 2023.2-2025.12,中国博士后科学基金面上资助,微波诱导石墨烯片层局部过热点温度的荧光比率测量和精确调控,8万元,在研,主持.
1. Zhao, Z.; Li, H.*; Gao, X.*, Microwave Encounters Ionic Liquid: Synergistic Mechanism, Synthesis and Emerging Applications. Chemical Reviews 2023, 124 (5), 2651-2698. (IF = 63.5)
2. Zhao, Z.#; Shen, X.#; Li, H.*; Liu, K.; Wu, H.; Li, X.; Gao, X.*, Watching Microwave-Induced Microscopic Hot Spots via the Thermosensitive Fluorescence of Europium/Terbium Mixed-Metal Organic Complexes. Angewandte Chemie-International Edition 2022, 61 (6), e202114340.
3. Zhao, Z.; Li, H.*; Zhao, K.; Wang, L.; Gao, X.*, Microwave-assisted synthesis of MOFs: Rational design via numerical simulation. Chemical Engineering Journal 2022, 428, 131006.
4. Zhao, Z.; Li, H.; Sun, G.; Tang, X.; Wu, H.; Gao, X.*, Predicting microwave-induced relative volatility changes in binary mixtures using a novel dimensionless number. Chemical Engineering Science 2021, 237, 116576.
5. Li, H.#; Zhao, Z.#; Xiouras, C.; Stefanidis, G. D.*; Li, X.; Gao, X.*, Fundamentals and applications of microwave heating to chemicals separation processes. Renewable & Sustainable Energy Reviews 2019, 114, 109316.
6. Yu, W.; Zhao, Z.*; Liu, K.; Li, H.; Gao, X.*, Mechanistic insights into microwave-accelerated permeation through graphene-based membranes. Separation and Purification Technology 2024, 336, 126274.
7. Wang, N.; Xu, A.; Liu, K.; Zhao, Z.*; Li, H.; Gao, X.*, Performance of green solvents in microwave-assisted pretreatment of lignocellulose. Chemical Engineering Journal 2024, 482, 148786.
8. Wang, N.; Liu, K.; Xu, A.; Li, H.; Zhao, Z.*; Fan, X.; Gao, X.*, An efficient microwave-assisted method using ethyl lactate/water cosolvent for lignocellulosic biomass fractionation. Chemical Engineering Journal 2024, 494, 152724.
9. Liu, K.; Ding, Q.; Wang, N.; Kou, Z.; Xu, A.; Li, H.; Zhao, Z.*; Jiao, Y.*; Gao, X.*, Melting-salt crystallization assisted controllable synthesis of core-shell zeolite catalyst for effective coupling of microwave hotspot and catalytic active site. Chemical Engineering Journal 2024, 485, 149985.
10. Kou, Z.; Liu, K.; Zhao, Z.*; Li, H.; Gao, X.*, Microwave hydrothermal in situ synthesis of highly dispersed metal-organic framework@SiC as a promising structured catalyst. Materials Today Energy 2024, 43, 101578.