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刘渝萍,正高/博士生导师,博士,中国化学会会员、中国分析测试青年委员会成员。

 

2011年毕业于重庆大学国家镁合金材料工程中心,获得材料科学与工程专业博士学位。20237-10月加拿大阿尔伯塔大学访问学者。主要从事能源材料与电化学、腐蚀与防腐、仪器分析的教学和科研工作,以及管理400MHz核磁共振仪器。作为项目负责人,主持国家重点研发计划子项目1项、国家自然科学青年基金项目1项、南开大学先进能源材料化学教育部重点实验室开放基金1项、重庆市材料表界面科学重点实验室开放项目1项、重庆大学中央高校基金1项、重庆市自然科学基金1项、重庆市教改项目2项和横向项目多项,主研省部级项目4项和横向10余项;发表SCI论文10余篇;申请专利9项;多次参加国内外学术会议;主编著作1册,参与编写教材3册。      


联系方式

Email:liuyuping@cqu.edu.cn, liuliuyuping@163.com, 工作电话:13594157660

 

研究方向

1)新能源材料和新能源电池:镁离子电池、锂离子电池等新能源储能技术,电极材料的理论计算与模拟;

 

2)金属材料表面处理与腐蚀:极具工业应用潜力的轻金属镁合金、铝合金等金属材料表面处理及腐蚀研究,镁合金在电化学储能体系中应用;  

 

3)仪器分析技术:有机波谱分析,核磁共振技术在有机化合物结构解析、电化学储能技术中应用;  

代表性论文、专著和专利

以第一作者或通讯作者所发表期刊论文:


[1] A novel high-performance Mg// Ni0.6Co0.4Se2 batteries enabled by interfacial chemistry modulation[J]. ACS Sustainable Chemistry & Engineering,2024

 

[2] NiAs-type vanadium sulfides: Topological surface and abundant electroactivity as a bi-functional material in Mg/Li batteries[J]. Applied surface science, 2024, 645:158888

 

[3] Reduced graphene oxide composite Ni3S2 microspheres grown directly on nickel foam as an efficient electrocatalyst for OER[J]. International journal of hydrogen energy, 2023,48:27441-27449

 

[4] Energy Storage Mechanism of C12‑3‑3 with High-Capacity and High-Rate Performance for Li/Mg Batteries[J]. ACS applied materials & interfaces, 2023,15:9273-9284

 

[5] The Conversion-Type Selenides as Potential High-Energy Cathode Materials for Mg-Based Batteries: A Review[J]. ACS sustainable chemistry & engineering, 2022,10 (46) :14980-15006

 

[6] Strong/Stiff Exterior and Elastic Interior: An Effective Biomimetic Topological Structure for the Consolidation of Waterlogged Wooden Archaeological Relics during Dehydration[J]. ACS applied polymer materials, 2022, 4 (11):8543-8555

 

[7] A new zinc-ion battery cathode with high-performance: Loofah-like lanthanum manganese perovskite[J]. Journal of colloid and interface science, 2022,610:796-804

 

[8] Revealing the electrochemical mechanism of the conversion-type Co3S4 in a novel high-capacity Mg-Li hybrid battery[J]. Electrochimica Acta, 2022, 401: 139403

 

[9] Fast kinetics of monoclinic VO2(B) bulk magnesiation via  DFT plus U calculations[J]. Physical Chemistry Chemical Physics, 2022, 24(4):2150-2157     

 

[10] Lithiation and Magnesiation Mechanism of VOCl: First-Principles Molecular dynamics Simulation[J]. Journal of the electrochemical society, 2022, 169(4):040566

 

[11] Bi nanorods anchored in N-doped carbon shell as anode for high-performance magnesium ion batteries[J]. Electrochimica Acta, 2021, 397: 139260

 

[12] Multielectron Electrode Reaction kinetics with RDE and RRDE: An advanced electrochemical laboratory experiment[J]. Journal of Chemical education, 2021, 98(9): 3026-3031

 

[13] Spinel Li4Mn5O12 as 2.0 V Insertion Materials for Mg-Based Hybrid Ion Batteries[J]. Chemelectrochem, 2020, 7(5): 1115-1124.

 

[14] A novel organic-inorganic zwitterionic acrylate polymer for high-performance anti-fog coating[J]. Progress in organic coatings, 2020, 149: 105578

 

[15] Ultrathin VO2(B) nanosheets as cathode material for high-cathode material for high-performance hydrid magnesium-lithium ion batteries[J].Journal of the electrochemical society, 2019, 166(8): A1660-A1667(2019)

 

[13] Vanadium dioxide-reduced graphene oxide binary host as an efficient polysulfide plague for high-performance lithium-sulfur batteries[J]. Journal of Materials Chemistry A, 2019, 7:1658-1668

 

[14] Nanostructured-VO2(B): A high-capacity magnesium-ion cathode and its electrochemical reaction mechanism[J]. Electrochemica Acta, 2018, 260:805-813

 

[15] Phase transformation and diffusion kinetics of V2O5 electrode in rechargeable Li and Mg batteries: a first-principle study[J].Journal of  physical chemistry C, 2018, 122(3): 1513-1521

 

[16] Adsorption orientation of sodium of polyaspartic acid effect on anodic films formed on magnesium alloy[J]. Applied surface science, 2011, 257(17): 7579-7585

 

[17] 镁可充电池正极材料V6O13/VO2的制备与电化学性能研究[J]. 功能材料,2015, 21: 21089-21092

 

[18] -过渡金属化合物正极材料的研究进展[J].化学进展,2014269):1596-1608

 

 专利:  

 

[1]刘渝萍,郑紫阳,王力,陈昌国,周燕,岑远,余丹梅,李莎,李伟,胡佳宏,有机硅改性丙烯酸树脂超亲水防雾涂料及其制作方法,2018,7,中国,2018107935323

 

[2]陈昌国,谭铃,徐彦芹,刘渝萍,桥式电容耦合非接触电导差分检测器,2016,8,中国201610702613.9

 

[3]张丁非,刘渝萍,申颖聘,张建刚,镁合金阳极氧化处理的电解液及对镁合金表面处理的方法,2011,中国,ZL200910103124.1(已授权)  

 

[4]张丁非,沟引宁,刘渝萍,郭星星,镁合金阳极氧化电解液及对镁合金表面处理的方法,2012,中国,CN201210253502.6(已授权)  

 

[5]张丁非,戴庆伟,兰伟,刘渝萍,方霖,徐杏杏,镁合金金属板材的轧制方法,2013,中国,CN102000695A(已授权)

 

主持或主研科研项目:  

 

[1]主持国家重点研发计划子课题,219YFC1520400,2020/01-2023/06

 

[2]主持横向项目,轻合金表面处理,2017/8-2021/10

 

[3]主持国家自然科学青年基金项目,214060212014/01-2017/12

 

[4]主持重庆大学中央高校面上基金,CQDXWL-2012-0362012/01-2014/12

 

[5]主持重庆自然科学面上基金,CSTC2009BB42142009/09-2012/08

 

[6]主研国家自然科学基金面上项目,21276912013/01-2016/12

 

[7]主研重庆科委科技计划攻关重点项目,CSTC2009AB40082009/09-2011/06

 

[8]主研重庆科委科技计划攻关项目,CSTC2008BAC40882008/05-2009/12

团队仪器设备

CHI电化学工作站、旋转圆盘电极、手套箱、充放电仪、烘箱、马弗炉、管式炉、冷冻干燥器等

发表论文:

[1] Luo Ting,Liu Yuping*,Su Hongfang,Xiao Renchao,Huang Liting,Xiang Qin,Zhou Yan,Chen Changguo*, Nanostructured-VO2(B): A high-capacity magnesium-ion cathode and its electrochemical reaction mechanism[J].Electrochemica Acta,2018,260:805-813SCI

[2]Xiao Renchao,Xie Jian,Luo Ting,Huang Liting,Yu Danmei,Chen Changguo,Liu Yuping*,Phase transformation and diffusion kinetics of V2O5electrode in rechargeable Li and Mg batteries:a first-principle study[J].Journal of physical chemistry C,2018,122(3):1513-1521(SCI)

[3]Xiang Qin,Liu Yuping,Zou Xuefeng, Hu Bingbing, Qiang Yujie, Yu Danmei, Yin Wei, Chen Changguo,Hydrothermal synthesis of a new kind of N-Doped graphene gel-like hydrid as an enhanced ORR electrocatalyst[J].ACS APPLIED Materials&Interfaces,2018,10(13):10842-10850SCI

[4] Xiang qin,Yin Wei,Liu Yuping,Yu Danmei,Wang Xiaoli,Li Sha, Chen Changguo*, A study of defect-rich carbon spheres as a metal-free electrocatalyst for an efficient oxygen reduction reaction[J].Journal of Materials Chemistry A,2017,5(46):24314-24320(SCI)

[5]Yuping Liu,Dingfei Zhang*,Changguo Chen,Jiangang Zhang,Libo Cui,Adsorption orientation of sodium of polyaspartic acid effect on anodic films formed on magnesium alloy[J].Applied surface science, 2011, 257(17):7579-7585 (SCI)

[6]刘渝萍*,张丁非,李晶,李婷婷,谢剑,苏红芳,何春燕,李钰莹,镁可充电池正极材料V6O13/VO2的制备与电化学性能研究[J].功能材料,2015,21:21089-21092(EI)

[7]刘渝萍*,李婷婷,李晶,陈昌国,张丁非,镁合金阳极氧化膜的生长动力学过程,稀有金属材料与工程[J].201443:1013-1018(SCI)

[8]刘渝萍*,谢剑,李婷婷,邓玲,陈昌国,张丁非,镁-过渡金属化合物正极材料的研究进展[J].化学进展,2014269):1596-1608(SCI)

[9]刘渝萍*,陈昌国,张丁非,倪桃,陈浩,蔡崇飞,不同浓度的MgBr2AZ31负极材料电化学性能的影响,材料导报,第26卷,第3期,34-37页,2012(CSCD)

专著:

[1]陈志良,刘渝萍,刘菊英,现代涂装手册,化学工业出版社.182万字,2010

[2]徐溢,季金苟,穆晓静,刘玮琪,刘渝萍,张文品,药物分析,化学工业出版社63.5万字,2009

专利:

[1]刘渝萍,郑紫阳,王力,陈昌国,周燕,岑远,余丹梅,李莎,李伟,胡佳宏,有机硅改性丙烯酸树脂超亲水防雾涂料及其制作方法,2018,7,中国,2018107935323

[2]刘渝萍,罗婷,陈昌国,苏红方,何春燕,李钰莹,黄丽婷,肖仁超,二氧化钒纳米材料的制备方法及在镁可充电池中应用,2017,1,中国,201710053635.1

[3]刘渝萍, 何春燕,陈昌国,李钰莹,罗婷,黄丽婷,肖仁超,周燕,镁-过渡金属磷酸类化合物可充电池正极材料及制备方法,2016,12,中国,201611227536.2

[4]刘渝萍,李晶,陈昌国,钒系氧化物作镁二次电池正极材料的应用及其溶胶凝胶制备方法,20138,中国,201310346777.9(已授权)

[5]陈昌国,谭铃,徐彦芹,刘渝萍,桥式电容耦合非接触电导差分检测器,2016,8,中国201610702613.9

[6]张丁非,刘渝萍,申颖聘,张建刚,镁合金阳极氧化处理的电解液及对镁合金表面处理的方法,2011,中国,ZL200910103124.1(已授权)

[7]张丁非,沟引宁,刘渝萍,郭星星,镁合金阳极氧化电解液及对镁合金表面处理的方法,2012,中国,CN201210253502.6(已授权)

[8]张丁非,戴庆伟,兰伟,刘渝萍,方霖,徐杏杏,镁合金金属板材的轧制方法,2013,中国,CN102000695A(已授权)

近期科研项目:

[1] 横向项目,波音公司,轻合金表面处理,2017/8-2019/10,主持

[2] 国家自然科学青年基金项目,21406021,镁离子电池正极材料钒系氧化物的研究,2014/01-2017/12,,主持

[3] 重庆大学中央高校面上基金,CQDXWL-2012-036,三维框架结构的石墨烯材料合成和储能研究,2012/01-2014/12,主持

[4] 重庆自然科学面上基金,CSTC2009BB4214,基于半导体电化学理论的镁合金阳极氧化膜性能与生长机制研究,2009/09-2012/08,,主持

[5]国家自然科学基金面上项目,2127691,镁锰电池之后机理及调控研究, 2013/01-2016/12,主研

[6]重庆科委科技计划攻关重点项目,CSTC2009AB4008,镁合金材料耐腐蚀西能及表面防护技术研究,2009/09-2011/06,,主研

[7].重庆科委科技计划攻关项目,CSTC2008BAC4088,复合负极镁锰电池的研究与开发,2008/05-2009/12,主研

 



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