李莉娜

发布日期:2020-08-24 作者: 编辑:ylzzcom永利总站 点击:

基本情况

姓名:李莉娜

性别:女

职称:讲师

所在系别:无机非金属材料工程系

是否博导:否

是否硕导:是

最高学历:研究生

最高学位:博士

电话:13844067649

Email:lilina@jlu.edu.cn

 

详细情况
所在学科专业:
无机非金属材料
研究方向:
多孔材料;光催化材料;污染物处理材料
讲授课程:
本科生课程 《新能源材料与技术》
教育经历:
2008.09/2012.07/ylzzcom永利总站/本科/学士
2012.09/2015.07/
ylzzcom永利总站/研究生/硕士
2015.9/ 2018.06/
德国马普所交替界面所,德国波茨坦大学/研究生/博士
工作经历:
2019.01/现在/ylzzcom永利总站/讲师
学术论文:

( 1 )Band structure tunable synthesis of photocatalytic Porous Aromatic Frameworks via Scholl reaction /Material & Design, 2020

( 2 )Cyanation of Carbon Nitride Scaffolds: Tuning Band Structure and Enhancing the Performance in Green Light Driven CS Bond Formation/ Applied Catalysis B: Environmental/2018

( 3 )Visible-light-Driven Photochemical Activation of sp3 C-H Bond for Hemiaminal Formation/ Applied Catalysis B: Environmental/2018

( 4 )Surface polycondensation as an effective tool to activate organic crystals: from boxed” semiconductors for water oxidation to 1d carbon nanotubes/ J. Mater. Chem. A /2017

( 5 )New Organic Semiconducting Scaffolds by Supramolecular Preorganization: Dye Intercalation and Dye Oxidation and Reduction/ Small /2016

( 6 ) The preparation of Porosity Modified 1 Porous Organic 2 Frameworks via Kaolin Loading and its Improved Aromatic 3 Organic Compounds Removal Performance/Microporous Mesoporous Materials/2021

( 7 ) Synthesis of N-containing porous aromatic frameworks via Scholl reaction

for reversible iodine capture/Microporous Mesoporous Materials/2021

( 8 )Effective removal of aromatic pollutants via adsorption and photocatalysis of porous organic frameworks/RSC Adv./2019

( 9 ) Visible-Light-Driven Photochemical Activation of sp3 C- H Bond for Hemiaminal Formation/Asian J. Org. Chem./2018

( 10 ) Construction and adsorption properties of porous aromatic frameworks via AlCl3-triggered coupling polymerization/2014/ J. Mater. Chem. A

( 11 ) Growth of large single MOF crystals and effective separation of organic dyes

( 12 )Construction of Sole Benzene Ring Porous Aromatic Frameworks and Their High Adsorption Properties/2015/ACS Appl. Mater. Interfaces

 


 

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