Zhong Li, female, master's supervisor, School of Chemical Engineering, University of Chinese Academy of Sciences; Institute of Process Engineering, Chinese Academy of Sciences

E-mail: lzhong@ipe.ac.cn

Mailing address: No.1 Zhongguancun North Second Street, Haidian District, Beijing

Postal Code: 100190


Research Areas

Controllable synthesis and application of environmental purification materials and new energy materials

    Controllable synthesis and application of environmental purification materials and new energy materials

Through chemical self-assembly, reactive crystallization, sol gel, hydrothermal crystallization, molten salt method, sub molten salt method, gas phase method, chemical doping modification, composite and other methods, the controllable synthesis of nanostructured and microstructured environmental purification materials (including mesoporous materials, mesoporous molecular sieves, nano SrTiO3 photocatalysts, etc.) and new energy materials (mainly research on new perovskite composite photocatalysts for photocatalytic decomposition of water to produce hydrogen, as well as in the field of photovoltaic power generation) are studied; Using structural design, online monitoring, process simulation and other methods, systematically study the fundamental theoretical issues in the material preparation process. And functional materials with unique structural properties and chemical activity will be applied to solve environmental problems such as industrial solid waste, exhaust gas, and wastewater, as well as new energy fields such as water splitting for hydrogen production and photovoltaic power generation.

    The researches have received support from multiple projects, including the National Natural Science Foundation of China, the Key Laboratory Fund of the Chinese Academy of Sciences, the Science and Technology Support Program, and enterprise commissioned projects.


Graduate Admissions Major:

081704- Applied Chemistry

080502- Materials Science

081702- Chemical Process


Graduate Enrollment Direction:

Environmental purification materials

Photocatalyst

Green Chemical Technology


Education

September 2007 to June 2011    Doctor 's degree from Graduate University of Chinese Academy of Sciences  

September 2003 to July 2006     Master's degree from Kunming University of Science and Technology

September 1999 to July 2003     Kunming University of Science and Technology Bachelor's degree


Experience


Work Experience

2016-12~now, Master Supervisor, School of Chemical Engineering, Chinese Academy of Sciences

2015-07~now, Associate Researcher, Institute of Process Engineering, Chinese Academy of Sciences

2011-07-2015-07, Assistant Researcher, Institute of Process Engineering, Chinese Academy of Sciences



Teaching Experience


2024-2025 Academic Year (Autumn) First Semester, Attribution of Chemical Engineering Principles, Major Courses for Graduate Students

In the first semester of the 2023-2024 academic year (autumn), Attribution of Chemical Engineering Principles, major courses for Graduate Students

Third Semester of 2023-2024 Academic Year (Summer), Principles of Chemical Engineering in Daily Life, Advanced Intensive Class for Graduate Students


Publications

   
Papers

(1) Synergistic Effect of Sr-O Divacancy and Exposing Facets in SrTiO3 Micro/Nano Particle: Accelerating Exciton Formation and Splitting, Highly Efficient Co2+ Photooxidation, Small, 2022, Fifth author
(2) Preparation of the regular polyhedral single-crystalline SrTiO3 particles with exposing different crystal facets, MATERIALS LETTERS, 2021, Third author
(3) The role of phase transfer catalysts on properties of polyamide thin-film composite forward osmosis membranes, CHEMICAL ENGINEERING JOURNAL, 2021, Third author
(4) Nucleation and morphology of sodium molybdate dihydrate from NaOH solution, Journal Of Crystal Growth, 2019, Fifth author
(5) Study on in situ synthesis of mesoporous alumina by temperature sensitive intelligent gel method, Inorganic salts in China, 2018, The first author
(6) Characteristics and application prospects of sub molten salt new media, Proceedings of the 2017 Solar Thermal Molten Salt Energy Storage Summit Forum, 2017, The first author
(7) Controllable Synthesis of Homogeneous Mesoporous Alumina by Reaction Crystallization, CHEMISTRY LETTERS, 2016,  Second author and corresponding author
(8) A single-step direct hydrothermal synthesis of SrTiO3 nanoparticles from crystalline P25 TiO2 powders, JOURNAL OF MATERIALS SCIENCE, 2016, Second author and corresponding author
(9)Mechanism Analysis of Deep Processing Technology of Dafeng Mountain CelestineJournal of Salt Lake Research, 2016, Fifth author
(10)A single-step direct hydrothermal synthesis of SrTiOnanoparticles from crystalline P25 TiOpowders, Journal of Materials Science, 2016, Second author
(11)Single-step hydrothermal synthesis of strontium titanate nanoparticles from crystalline anatase titanium dioxide, Ceramics International, 2015, Second author
(12)Research Progress in Cleaner Production of High Purity Strontium CarbonateJournal of Salt Lake Research, 2013, Third author
(13)Cleaner synthesis of mesoporous alumina from sodium aluminate solution, GREEN CHEMISTRY, 2011, The first author
(14) Synthesis of mesoporous alumina using a recyclable methylcellulose template, MICROPOROUS AND MESOPOROUS MATERIALS, 2011, The first author
(15)Study on Application of Solid Superacid SO42-/TiO2 in Preparing Perillartine from Pinene,  Chemistry and Industry of Forest Products, 2009, Third author
(16) Extraction of alumina and sodium oxide from red mud by a mild hydro-chemical process, JOURNAL OF HAZARDOUS MATERIALS, 2009, The first author
(17) Recovery of Al2O3 and Na2O from red mud by sub-molten salt, Proceedings of the 2008 National Conference on hydrometallurgy, 2008, The first author
(18) Recovery of Al2O3 and Na2O from red mud by sub-molten salt, The Chinses Journal of Nonferrous Metals, 2008, The first author

Patents

1  一种水性涂料及其制备方法发明授权, 2023,  6 作者专利号: CN115627092B
2  一种水性涂料及其制备方法发明专利, 2023,  6 作者专利号: CN115627092A
3  一种富锶矿泉水及其制备方法和应用发明专利, 2022,  4 作者专利号: 202211369014.1
4  一种富锶啤酒及其制备方法发明专利, 2022,  4 作者专利号: 202211370475.0
5  一种光催化薄膜及其制备方法和用途发明专利, 2022,  5 作者专利号: CN115350719A
6  一种钛酸锶/碘氧化铋复合的光催化材料、包含其的光催化薄膜及制备方法和用途发明专利, 2022,  5 作者专利号: CN115318314A
7  一种纳米十八面体SrTiO3及其制备方法和应用发明专利, 2022,  7 作者专利号: CN114873637A
8  一种柠檬酸锶及其制备方法发明专利, 2022,  2 作者专利号: CN114716310A
9  一种柠檬酸锶及其制备方法发明专利, 2022,  2 作者专利号: 202210637727.5
10  一种天青石碱熔焙烧制备氢氧化锶的方法发明专利, 2022,  5 作者专利号: CN114853045A
11  一种碳酸锂的制备方法发明专利, 2022,  4 作者专利号: CN113955776A
12  一种光催化复合颗粒及其制备方法和用途发明专利, 2021,  3 作者专利号: CN112604678A
13  一种钛酸锶单晶颗粒及其制备方法和用途发明专利, 2021,  3 作者专利号: CN112760711A
14  一种碳酸锂的制备方法发明专利, 2017,  4 作者专利号: CN106587117A
15  多孔氧化铝高效净化铝电解含氟烟气的新方法发明专利, 2015,  1 作者专利号: CN104911631A
16  一种通过碳酸氢钠分解铝酸钠溶液制备有序介孔氧化铝的方法发明专利, 2010,  2 作者专利号: CN101774618A
17  一种无机合成有序介孔氧化铝的方法发明专利, 2011,  2 作者专利号: CN101993102A
18  一种从铝土矿生产氧化铝的方法发明专利, 2010,  5 作者专利号: CN101746795A
19  一种回收拜尔法赤泥中氧化铝和氧化钠的方法发明专利, 2009,  4 作者专利号: CN101607725A
20  低温低压水化学法回收赤泥中氧化铝和氧化钠发明专利, 2009,  2 作者专利号: CN101538058A
21  一种迷宫型多级孔结构钛酸锶及其制备方法与应用发明专利, 2024,  2 作者专利号: CN117361612A
22  一种天青石碱熔焙烧制备氢氧化锶的方法发明授权, 2024,  5 作者专利号: CN114853045B


Collaboration

1  典型废弃物的生态环境影响效应与循环利用综合性解决方案研究, 负责人国家任务, 2018-11--2022-11
2  萃取法制取万吨级电池级碳酸锂关键技术研究及产业化示范-子课题, 参与地方任务, 2016-01--2017-12
3  德令哈省级高新技术产业开发区产业发展规划, 参与地方任务, 2015-09--2016-12
4  高纯氢氧化锶生产新工艺及产业化, 参与地方任务, 2015-07--2017-12
5  基于含氟烟气净化的介孔氧化铝的可控合成基础研究, 负责人国家任务, 2015-01--2017-12
6  基于含氟烟气净化的介孔氧化铝的可控合成基础研究, 负责人研究所自主部署, 2014-07--2016-06
7  多孔氧化铝净化铝电解含氟烟气的新技术开发, 负责人境内委托项目, 2014-01--2016-12

Students

Graduate Admissions Major:

081704- Applied Chemistry

080502- Materials Science

081702- Chemical Process


Graduate Enrollment Direction:

Environmental purification materials

Photocatalyst

Green Chemical Technology