作为清华微化工技术方向创始人和分离科学与技术学术带头人，长期从事微尺度流动化学、微化工技术、分离科学与技术、多相流动与传递、粉体材料制备等研究，主持国家自然科学基金重大项目“面向高端化学品制造的微化工科学基础”。致力于微化工理论体系构建和微化工技术从概念到工业应用的突破，揭示界面力、粘性力等对多相微分散体系的调控机制，发展基于剪切力调控的微分散方法和设备，分析微分散过程中动态界面张力的变化规律，研究探索微尺度混合、传递和反应基本规律并建立数学模型，发展分离和反应过程强化新方法，提出微设备放大和微化工系统集成理论与方法，发明微槽式、微滤膜式、多重孔径微筛孔式、微筛孔阵列式、微元件组合式等多种微化工设备，突破多项微化工技术产业应用的重大难题，在国际上率先实现微化工技术在万吨级湿法磷酸净化、酸团萃取、纳米碳酸钙制备、溴化丁基橡胶合成、橡胶促进剂合成等的产业化应用。在核心刊物上发表论文420余篇，获授权发明专利100余项，获国家技术发明二等奖和科技进步二等奖各1项、以及省部委科技奖励9项。任中国化工学会和中国颗粒学会常务理事，国务院学位委员会学科评议组化学工程与技术组成员，入选英国皇家化学会会士、中国化工学会会士、国际标准委员会微气泡分委会成员、国际微反应技术会议学术委员、国际溶剂萃取委员会国际委员。任CJChE执行主编和Particuology、《化工学报》、《中国科学－化学》、Chemical Engineering Journal、Reaction Chemistry and Engineering、Separation and Purification Technology、Journal of Flow Chemistry等多个杂志的编委。荣获全国优秀科技工作者、中国化工学会侯德榜化工创新奖、全国优秀博士学位论文指导教师、北京市优秀教师等荣誉，多次获评清华大学“良师益友”，首批入选清华大学“良师益友“名人堂。

1. 微化工科学基础

基于微结构元件，研究微尺度混合、分散、传递和反应的基本规律，发展新型微结构设备强化微混合及多相传递和反应过程，研究气液、液液、气液液、气液固等多相体系流动、界面、传递和反应特性，揭示微化工过程的尺度效应和界面效应及其机制，发展微结构元件集成和微反应器放大设计方法。

2. 微反应器流动合成化学与技术

针对纳米材料、聚合物材料、医药中间体等高端和精细化学品和硝化、卤化、氧化、重排等极端条件反应，发展基于微反应器和微化工系统的连续流动合成原理和方法，研究微结构元件与不同产品不同反应的适配关系，揭示微尺度合成原理和强化机制。

3. 智能微化工系统理论与方法

构建基于微化工元件及常规设备集成的模块化微化工系统，研究不同模块之间的组合策略，开展自动控制、人工智能等在产品监测、产品合成、模型构建等方面的研究。

4. 微化工过程强化技术

针对气液、液液等体系吸收、萃取和反应等过程特点，基于微化工技术提出对应特定体系的过程强化策略，开发特异性和差异化的过程强化工艺和装备。

[1] Z. Yan, J. Tian, C. Du, J. Deng, G. Luo, Reaction kinetics determination based on microfluidic technology, Chinese Journal of Chemical Engineering 41 (2022) 49-72. https://doi.org/10.1016/j.cjche.2021.08.023.

[2] J. Tian, Z. Yan, J. Deng, G. Luo, A Much Cleaner Oxidation Process for 2,2 '-Dibenzothiazole Disulfide Synthesis Catalyzed by Phosphotungstic Acid, Industrial & Engineering Chemistry Research 61(1) (2022) 207-214. https://doi.org/10.1021/acs.iecr.1c03807.

[3] Z. Yan, Y. Wang, C. Du, J. Deng, G. Luo, Highly efficient two-stage ring-opening of epichlorohydrin with carboxylic acid in a microreaction system, AIChE Journal. https://doi.org/10.1002/aic.17791.

[4] C. Can, J. Wang, Y. Wang, J. Deng, G. Luo, Microdroplet-based continuous countercurrent extraction with high phase ratio, Separation and Purification Technology. 295 (2022) 121269. https://doi.org/10.1016/j.seppur.2022.121269.

[5] C. Han, T. Tang, J. Deng, G. Luo, Quantitative determination of base-catalyzed hydrolysis kinetics of methyltrimethoxysilane by in-situ Raman spectroscopy, Chemical Engineering Journal 446 (2022) 136899. https://doi.org/10.1016/j.cej.2022.136889.

[6] T. Tang, C. Han, J. Deng, G. Luo, Controllable preparation of thio-functionalized composite polysilsesquioxane microspheres in a microreaction system, Advanced Powder Technology. 33 (2022) 103578. https://doi.org/10.1016/j.apt.2022.103578.

[7] Y. Wang, C. Du, Z. Yan, W. Duan, J, Deng, G. Luo, Rapid demulsification and phase separation in a miniaturized centrifugal demulsification device, Chemical Engineering Journal 446 (2022) 137276. https://doi.org/10.1016/j.cej.2022.137276.

[8] J. Song, Y. Cui, L. Sheng, Y. Wang, C. Du, J. Deng, G. Luo, Determination of nitration kinetics of p-Nitrotoluene with a homogeneously continuous microflow, Chemical Engineering Science 247 (2022). https://doi.org/10.1016/j.ces.2021.117041.

[9] L. Sheng, L. Ma, Y. Chen, J. Deng, G. Luo, A comprehensive study of droplet formation in a capillary embedded step T-junction: From squeezing to jetting, Chemical Engineering Journal 427 (2022). https://doi.org/10.1016/j.cej.2021.132067.

[10] L. Sheng, Y. Chang, J. Deng, G. Luo, Taylor Bubble Generation Rules in Liquids with a Higher Viscosity in a T-Junction Microchannel, Industrial & Engineering Chemistry Research 61(6) (2022) 2623-2632. https://doi.org/10.1021/acs.iecr.1c05015.

[11] Y. Cui, J. Song, C. Du, J. Deng, G. Luo, Determination of the kinetics of chlorobenzene nitration using a homogeneously continuous microflow, AIChE Journal 68(4) (2022). https://doi.org/10.1002/aic.17564.

[12] Z. Yan, J. Tian, K. Wang, K.D.P. Nigam, G. Luo, Microreaction processes for synthesis and utilization of epoxides: A review, Chemical Engineering Science 229 (2021). https://doi.org/10.1016/j.ces.2020.116071.

[13] Z. Yan, Z. Ma, J. Deng, G. Luo, Mechanism and kinetics of epoxide ring-opening with carboxylic acids catalyzed by the corresponding carboxylates, Chemical Engineering Science 242 (2021). https://doi.org/10.1016/j.ces.2021.116746.

[14] Z. Yan, C. Du, G. Luo, J. Deng, Remarkable improvement of epoxide ring-opening reaction efficiency and selectivity with water as a green regulator, Reaction Chemistry & Engineering 6(11) (2021) 2159-2169. https://doi.org/10.1039/d1re00277e.

[15] J. Tian, C. Du, K. Wang, J. Deng, G. Luo, Main Reaction Network and Kinetics in the Synthesis of 2,2 '-Dibenzothiazole Disulfide, Industrial & Engineering Chemistry Research 60(28) (2021) 10094-10100. https://doi.org/10.1021/acs.iecr.1c01559.

[16] J. Song, Y. Cui, G. Luo, J. Deng, Y. Wang, Kinetic study of o-nitrotoluene nitration in a homogeneously continuous microflow, Reaction Chemistry & Engineering 7(1) (2021) 111-122. https://doi.org/10.1039/d1re00362c.

[17] L. Sheng, Y. Chen, K. Wang, J. Deng, G. Luo, General rules of bubble formation in viscous liquids in a modified step T-junction microdevice, Chemical Engineering Science 239 (2021). https://doi.org/10.1016/j.ces.2021.116621.

[18] L. Sheng, Y. Chen, J. Deng, G. Luo, High-frequency formation of bubble with short length in a capillary embedded step T-junction microdevice, AIChE Journal 67(11) (2021). https://doi.org/10.1002/aic.17376.

[19] C. Han, J. Deng, K. Wang, G. Luo, Formation Mechanism of Monodispersed Polysilsesquioxane Spheres in One-Step Sol-Gel Method, Langmuir 37(19) (2021) 5878-5885. https://doi.org/10.1021/acs.langmuir.1c00350.

[20] C. Han, J. Deng, K. Wang, G. Luo, Continuous-flow synthesis of polymethylsilsesquioxane spheres in a microreaction system, Powder Technology 390 (2021) 521-528. https://doi.org/10.1016/j.powtec.2021.05.086.

[21] Y. Chen, L. Sheng, J. Deng, G. Luo, Geometric Effect on Gas-Liquid Bubbly Flow in Capillary-Embedded T-Junction Microchannels, Industrial & Engineering Chemistry Research 60(12) (2021) 4735-4744. https://doi.org/10.1021/acs.iecr.1c00262.

[22] Z. Yan, Y. Hu, C. Du, J. Deng, K. Wang, G. Luo, Tetramethylammonium neodecanoate as a recyclable catalyst for acidolysis reaction of epichlorohydrin with neodecanoic acid, Journal of Catalysis 385 (2020) 44-51. https://doi.org/10.1016/j.jcat.2020.03.004.

[23] Z. Yan, J. Deng, Y. Chen, G. Luo, Preparation of 2,3-Epoxypropyl Neodecanoate: Process Optimization and Mechanism Discussion, Industrial & Engineering Chemistry Research 59(43) (2020) 19168-19176. https://doi.org/10.1021/acs.iecr.0c02906.

[24] J. Tian, J. Hu, K. Wang, J. Deng, G. Luo, A chemical looping technology for the synthesis of 2,2 '-dibenzothiazole disulfide, Green Chemistry 22(9) (2020) 2778-2785. https://doi.org/10.1039/d0gc00260g.

[25] C. Han, Y. Hu, K. Wang, G. Luo, Synthesis of mesoporous silica microspheres by a spray-assisted carbonation microreaction method, Particuology 50 (2020) 173-180. https://doi.org/10.1016/j.partic.2019.06.003.

[26] C. Du, P. Wang, Y. Hu, J. Zhang, G. Luo, Liquid-Liquid Mass Transfer Enhancement in Milliscale Packed Beds, Industrial & Engineering Chemistry Research 59(9) (2020) 4048-4057. https://doi.org/10.1021/acs.iecr.9b04225.

[27] J. Deng, P. Zou, K. Wang, G. Luo, Continuous-flow synthesis of (E)-2-Hexenal intermediates using a two-stage microreactor system, Journal of Flow Chemistry 10(4) (2020) 661-672. https://doi.org/10.1007/s41981-020-00112-7.

[28] Y. Cui, Y. Li, K. Wang, J. Deng, G. Luo, High-throughput preparation of uniform tiny droplets in multiple capillaries embedded stepwise microchannels, Journal of Flow Chemistry 10(1) (2020) 271-282. https://doi.org/10.1007/s41981-019-00051-y.

[1] 骆广生，吕阳成，王凯等，《微化工技术》，化学工业出版社，2020

[2] G.S. Luo, J. Deng, K. Wang, Integrated Microreaction Systems of Microdevices with Conventional Equipment, 2020, Chapter 14. in: Flow Chemistry ( Ed. by Santiago V. Luis and Eduardo Garcia-Verdugo), The Roral Society of Chemistry, London, UK

[3] G.S. Luo, L. Du, Y.J. Wang, K. Wang, Composite Nanoparticles. in: Encyclopedia of Microfluidics and Nanofluidics ( Ed. by D. Li), 2015, Springer Science+Business Media New York

[4] 骆广生，王玉军，吕阳成译，《微反应器》，化学工业出版社，2004

[5] 汪家鼎，骆广生编著，《溶剂萃取》，清华大学出版社，2002

[1] 湿法磷酸高值化和清洁生产的微化工技术及应用 国家自然科学进步二等奖 2019

[2] 微结构化工传质设备及其工业应用 国家技术发明二等奖 2012

[3] 面向复杂反应过程强化的微化工系统创制和工业示范 中国石油和化学工程联合会技术发明一等奖 2021