马丽娟,博士,教授,硕士生导师,“三晋英才”支持计划青年优秀人才。2015年1月毕业于银河集团:198net,获物理化学专业博士学位。2015年7月至今,银河集团:198net工作,科研上从事功能纳米材料的设计与模拟、电化学催化、电化学能源转化与存储等相关研究,目前主要课题方向为储氢材料的设计与模拟,CO2还原催化剂的设计与模拟。2016年增列为化学学业研究生导师,2017年增列为教师教育(化学)专业研究生导师。2019年入选山西省“三晋英才”支持计划青年优秀人才,2019年9月—2020年7月于北京大学工学院访学。2021年获得山西省优秀硕士学位论文指导教师。目前主持国家自然科学基金项目一项(21805176)、山西省基础研究计划两项(201901D211394,2022年度第二批)、山西省高等学校科技创新项目一项(2020SY32)。参与973计划前期专项课题(2010CB635110)”、国家基金重点项目(21031003)、国家青年科学基金“过渡金属掺杂硼团簇结构及储氢性质的理论研究(21103101)以及3项国家自然科学基金面上项目(21373131,11404203,21301112,22275118)。在Nanoscale、Energy、Applied Surface Science、International Journal of Hydrogen Energy等国际期刊发表SCI收录学术论文30余篇,出版国家级著作《氢成键形态的多样性及储氢材料模拟》1部。其中发表在Nanoscale的文章被Nature Reviews Physics进行转载,并被Physics Chemistry Chemical Physics、International Journal of Hydrogen Energy、Frontiers in Chemistry等期刊引用。指导本科生获得山西省高等学校大学生创新创业训练计划项目。指导研究生主持多项省级创新项目和校级创新项目,多次获得优秀硕士学位毕业论文和研究生国家奖学金(学生韩敏,杨正红,荣祎斐)。
教学上担任《结构化学》、《结构化学实验》、《量子化学基础》、《文献检索与科技论文写作》等课程的教学工作。主持省级研究生教改项目1项(2017JG51),省级本科生教改项目2项(J2019098,J20220475)。
研究方向:
1.储氢材料的设计与模拟
2.CO2还原催化剂的设计与模拟
3.电化学催化
科研项目:
1.国家自然科学基金青年项目,21805176,轻过渡金属簇修饰的石墨烯储氢过程中氢成键形态的理论研究,主持
2.山西省基础研究计划(山西省自然科学基金)青年项目,201901D211394,拓扑半金属A2TMN2(A=Li,Na,K;TM=V,Cr,Mo)的结构及储氢性能,主持
3.山西省高等学校科技创新基金,2019L0461,石墨烯负载金属簇TMn(TM=Sc,Ti, V)界面与氢分子作用的机制研究,2019年山西省高等学校科技创新计划项目,主持
4.山西省研究生创新项目,20133080,金属有机复合物的结构及外电场对其储氢性能的微调,主持
5.973计划前期专项课题和国家基金重点项目“硼掺杂和金属修饰的复合材料储氢研究(2010CB635110,21031003),参与
6.国家青年科学基金“过渡金属掺杂硼团簇结构及储氢性质的理论研究(21103101),参与
7.国家自然科学基金面上项目“M-N(M=Ag,Au; N=Pd,Rh,Co)合金纳米团簇光催化剂性能与机理”(21373131),参与
8.国家自然科学基金面上项目“S+OH反应非绝热势能面的构建和动力学研究”(11404203),参与
9.国家自然科学基金面上项目“Co基过渡金属合金团簇的结构和磁性理论研究”(21301112,22275118),参与
10.国家自然科学基金面上项目“手性卡宾光敏型COFs的可控构筑及光驱动不对称催化性能研究”(22275118),参与
11.山西省研究生教育创新计划项目(学生杨正红),2019SY343,指导教师
12.山西省研究生教育创新计划项目(学生荣祎斐),2020SY332,指导教师
13.银河集团:198net研究生教育创新计划项目(学生郝文姝),2018-01053020,指导教师
14.银河集团:198net研究生教育创新计划项目(学生韩婷),2020XSY002,指导教师
15.银河集团:198net研究生教育创新计划项目(学生高升启),2020XSY002,指导教师
16.银河集团:198net研究生教育创新计划项目(学生郝智超),2021XSY037,指导教师
17.山西省高等学校大学生创新创业训练计划项目,2018874,指导教师
教学项目:
1.山西省研究生教育改革研究课题,学科教学(化学)研究性教学模式的探索与实践,项目编号:2017JG51,主持
2.山西省高等学校教学改革创新项目,网络环境下基于问题的协作知识构建设计与实践-以大学生“结构化学”课程教学改革为例,项目编号:J2019098,主持
3.山西省高等学校教学改革创新项目,《结构化学》教学中的课程思政教育探索,项目编号:J20220475,主持
联系方式:malijuan19852223@163.com
发表论文:
1.Tuning Band Structures of Hf-Pcn-224(M) for Β-Carbonyl C(Sp3)-H Bond Activation and Difunctionalization: Tandem C(Sp3) Radical Cross-Coupling through Photoredox.Applied Catalysis B: Environmental2023,321.
2.Bonding States of Hydrogen for Supported Ti Clusters on Pristine and Defective Graphene.International Journal of Hydrogen Energy2023.
3.Defect and Interstitial B Synergistically Promote the Stability and H2 Dissociation of Pd6 Supported by Graphene.International Journal of Hydrogen Energy2022,47, 28423-28433.
4.Effects of Charging, Strain, and Doping on the Interaction between H2 and Nitrogen-Rich Penta-CN2Sheet.International Journal of Hydrogen Energy2022,47, 34183-34194.
5.Sc, Ti, V修饰B/N掺杂单缺陷石墨烯的储氢研究.高等学校化学学报2021,42, 2842~2851.
6.Selective Hydroboration of Alkynes Via Multisite Synergistic Catalysis by PCN-222(Cu).Journal of Catalysis2021,401, 63-69.
7.Ultralong and Color-Tunable Room-Temperature Phosphorescence Based on Commercial Melamine for Anticounterfeiting and Information Recognition.Analytical Chemistry2021,93, 4075-4083.
8.Activating PtSe2Monolayer for Hydrogen Evolution Reaction by Defect Engineering and Pd Doping.Applied Surface Science2021,545, 149013.
9.Sc/Ti-Decorated and B-Substituted Defective C60as Efficient Materials for Hydrogen Storage.International Journal of Hydrogen Energy2021,46, 14508-14519.
10.Effect of Monovacancy on Stability and Hydrogen Storage Property of Sc/Ti/V-Decorated Graphene.Acta Physica Sinica2021,70.
11.Experimental and Theoretical Study on the Behaviour of a Pickling Solution: The Role of Ferrous Ions.Journal of Cleaner Production2020,243, 118631.
12.The Optimal Adsorption Pathway of H2 Molecules on Ti-Acetylene/ Ethylene Compounds: A Dft Study.International Journal of Hydrogen Energy2020,45, 2105-2118.
13.Investigation of Hydrogen Storage on Sc/Ti-Decorated Novel B24N24.International Journal of Hydrogen Energy2020,45, 33740-33750.
14.A Synergistic Effect of Physisorption and Chemisorption: Multiple H2Molecules on the ScC6H6Complex.International Journal of Hydrogen Energy2020,45, 15302-15316.
15.Sc/Ti Decorated Novel C24N24Cage: Promising Hydrogen Storage Materials.International Journal of Hydrogen Energy2020.
16.Cooperative Physisorption and Chemisorption of Hydrogen on Vanadium-Decorated Benzene.RSC Adv.2020,10, 37770.
17.A Topological Semimetal Li2CrN2Sheet as a Promising Hydrogen Storage Material.Nanoscale2020,12, 12106-12113.
18.Molecular and Dissociated Adsorption of Hydrogen on TiC6H6.International Journal of Hydrogen Energy2019,44, 25800-25808.
19.The Structures, Stabilities and Electronic Properties of PdnB (n = 1–10) Clusters.Computational and Theoretical Chemistry2019,1164, 112554.
20.The Effect of Interstitial Boron on the Mechanisms of Acetylene Hydrogenation Catalyzed by Pd6: A Dft Study.Computational and Theoretical Chemistry2019,1170, 112636.
21.Linear Complex HCC-TMH (TM=Sc–Ni): A Simple and Efficient Adsorbent for Hydrogen Molecules.International Journal of Hydrogen Energy2019,44, 18145-18152.
22.Adsorption of Multiple H2Molecules on the Complex TiC6H6: An Unusual Combination of Chemisorption and Physisorption.Energy2019,171, 315-325.
23.Study on the Volatilization Inhibition Performance and Mechanism of Monolayer During the Leakage Process of Ammonia Solution.The Canadian Journal of Chemical Engineering2018,96, 704-711.
24.Oligomerization of Vanadium-Acetylene Systems and Its Effect on Hydrogen Storage.International Journal of Hydrogen Energy2017,42, 14188-14198.
25.Density Functional Theory Study of the Interaction of Hydrogen with TMC2H2(TM=Sc-Ni).International Journal of Hydrogen Energy2017,42, 29384-29393.
26.Computational Investigation of Hydrogen Adsorption/Desorption on Zr–Η2–(C2H2) and Its Ion.Chemical Physics2015,457, 57-62.
27.Density Functional Theory Investigation on the Structure and Stability of Sc2Bn(n=1–10) Clusters.Computational and Theoretical Chemistry2014,1027, 128-134.
28.Ti–Ηᵑ-(C2H2) and Hc≡C–Tih as High Capacity Hydrogen Storage Media.International Journal of Hydrogen Energy2013,38, 16185-16192.
29.Structures and Stabilities of ScBn (n = 1–12) Clusters: An Ab Initio Investigation.Journal of Molecular Modeling2013,19, 3255-3261.
30.B12Sc4和B12Ti4团簇的储氢性质.Acta Phys. -Chim. Sin.2012,28 (8), 1854-1860.
31.Structure and Stability of TiBn(n=1-12) Clusters: Anabinitioinvestigation.Acta Chimica Sinica2012,70, 1643.