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张利静
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副教授
博士生导师
硕士生导师
- 性别:女
- 毕业院校:清华大学
- 学位:博士
- 所在单位:化学学院
- 学科:无机化学. 物理化学
- 办公地点:大连理工大学化工综合楼C402
- 联系方式:zhanglj@dlut.edu.cn
- 电子邮箱:zhanglj@dlut.edu.cn
访问量:
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[1] Sun, Xueyan, 闫英, 张利静, Ma, Guangxin, Liu, Yang, 于永鲜, An, Qi, 陶胜洋.Direct 3D Printing of Reactive Agitating Impellers for the Convenient Treatment of Various Polluta[J],Advanced Materials Interfaces,2022,5(8)
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[2] 丁保君, Ge, Shuo, Wang, Jie, 陶胜洋, 丁云哲, 张利静, Gao, Ning, Li, Guangtao, Shi, Haonan, Weijun.Fabrication of multi-functional porous microspheres in a modular fashion for the detection, adsorpti[J],JOURNAL OF COLLOID AND INTERFACE SCIENCE,2022,522:1-9
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[3] Geng, Chong, Li, Fangfang, Fang, Yuemei, 张利静, Shi, Shuangshuang, Zhang, Zi-Hui, Yonghui, Xu, Shu, Bi, Wengang.Fabrication and Growth Mechanism of Uniform Suspended Perovskite Thin Films[J],CRYSTAL GROWTH DESIGN,2022,18(10):5770-5779
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[4] Wei, Siqi, 张利静, Li, Chong, 陶胜洋, 丁保君, 朱慧超, 夏书峰.Preparation of soft somatosensory-detecting materials via selective laser sintering[J],Journal of Materials Chemistry C,2022,7(22):6786-6794
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[5] Zhou, Yumeng, 杨文博, Wang, Xintong, Sifang, 王玉超, 张利静, Zhang, Jiangwei, 陶胜洋.Preparation of ZrO2-Based Catalytic Fibers via the Assistance of Microfluidic Chips[J],INDUSTRIAL ENGINEERING CHEMISTRY RESEARCH,2022,59(49):21592-21601
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[6] Zhou, Yumeng, Song, Wentong, 张利静, 陶胜洋.Preparation of hollow magnetic porous zirconia fibers as effective catalyst carriers for Fenton re[J],Journal of Materials Chemistry A,2022,6(26):12298-12307
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[7] 胡涛, Wang, Hanwen, 张利静, 陶胜洋.Preparation of hollow silver-polymer microspheres with a hierarchical structure for SERS[J],APPLIED SURFACE SCIENCE,2022,490:293-301
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[8] Sun, Pengbo, 张利静, 陶胜洋.Preparation of hybrid chitosan membranes by selective laser sintering for adsorption and catalysis[J],MATERIALS DESIGN,2022,173
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[9] Liu, Junbo, 张利静, 杨成, 陶胜洋.Preparation of multifunctional porous carbon electrodes through direct laser writing on a phenolic[J],Journal of Materials Chemistry A,2022,7(37):21168-21175
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[10] Zhu, Zhigang, 杨琳, 于永鲜, 张利静, 陶胜洋.Scale-up Design of a Fluorescent Fluid Photochemical Microreactor by 3D Printing[J],ACS omega,2022,5(13):7666-7674
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[11] Li, Danjie, Liu, Lingmei, 张利静, 陶胜洋, Guangtao, 于永鲜, 刘新.Self-Assembly of Nanoparticles in a Modular Fashion to Prepare Multifunctional Catalysts for Casca[J],ACS omega,2022,4(1):1549-1559
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[12] 张利静, 高艳明, Tian, Shujun, Liu, Baojun, Shen, Wei, Zheng, Xueming.Simulation for dynamic characteristics of hydraulic differentiator[J],Dalian Ligong Daxue Xuebao/Journal of Dalian University of Technology,2022,38(2):212-217
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[13] Huang, Peng, 张利静, Yan, Qingfeng, Guo, Dan, Xie, Guoxin.Size Dependent Mechanical Properties of Monolayer Densely Arranged Polystyrene Nanospheres[J],LANGMUIR,2022,32(49):13187-13192
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[14] 王艳君, 陶胜洋, 周雨萌, Han, Peng, Qi, Guicun, Gao, Dali, 张利静, Wang, Chan, Che, Jian, 王玉超.Improved Water Collection from Short-Term Fog on a Patterned Surface with Interconnected Microchanne[J],Environmental Science and Technology,2024
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[15] 杨霖, 孙玉涛, 张利静.Microreactor Technology: Identifying Focus Fields and Emerging Trends by Using CiteSpace II.[J],ChemPlusChem,2024,88(1):e202200349
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[16] 周明宇, 张利静, 陶胜洋, Li, Renyuan, 王玉超.Recent research advances in efficient solar-driven interfacial evaporation[J],Chemical Engineering Journal,2024,489
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[17] Oelgemöller, Michael, 张利静, Zhao, Fang, Su, Yuanhai.Editorial: Novel technologies for sustainable and energy-efficient flow photochemistry.[J],Frontiers in chemistry,2024,11:1322556
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[18] 欧阳吉虹, 李富军, 郭鹏飞, 陶胜洋, 杨文博, Zhaoyan Guo, 刘文东, 周雨萌, Dali Gao, 张利静.Modular Cascade of Flow Reactors: Continuous Flow Synthesis of Water-Insoluble Diazo Dyes in Aqueous[J],ChemSusChem,2024,e202400413-e202400413
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[19] Lv, Qianrui, Li, Jiaqi, Wang, Ruili, 张利静.Ultraviolet-Light–Triggered Coalescence of Liquid Marbles for Multistep Microreactions[J],Particle and Particle Systems Characterization,2024,40(10)
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[20] 安锦涛, 陶盛洋, Lv, Qianrui, 王玉超, 杨文博, 张利静, Miskevich, Alexander A., Loiko, Valery A..Study of the Coupling Effect of Multiple Factors on the Photoreaction Process Based on a Standard Ph[J],Industrial and Engineering Chemistry Research,2024,62(26):10266-10276
