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十大网投信誉平台/中级及其他2020-12-07 17:58:07来源:华南师范大学评论:0收藏本文

姓名(Name):罗丹 (Dan Luo)image.png

职称(Position):特聘副研究员 (Associated researcher)

工作单位(Institution):十大网投信誉平台

联系方式(Contact)luod@m.scnu.edu.cn

工作经历:

2020.11-现在     华南师范大学 十大网投信誉平台         特聘副研究员

 

教育背景:

2016.09-2020.08    滑铁卢大学           化学工程                    博士(导师:陈忠伟院士)

2014.09-2016.08     麦克马斯特大学   材料科学与工程          硕士

2010.09-2014.07     东南大学             材料科学与工程           学士

 

研究内容:

围绕新能源器件物理的应用重大需求,以材料合成设计为核心,精确调控储能材料的微纳结构,深入分析结构与性能之间的构效关系。开展材料-电极-器件的系统化工程研究,从微尺度上设计材料,多尺度协同耦合制备高稳定性电极,全方面提升电池器件综合性能。

 

研究方向主要为:

(1)高性能锂硫电池电极材料的结构优化及锂硫催化机制研究

(2)基于金属负极的二次电池的界面稳定性研究

(3)全固态电解质的研发及其离子传输机制的研究

(4)高能量密度锂离子电池负极材料的结构设计

(5)高性能电催化剂的结构调控及其催化反应机制的诠释

(6)退役锂离子电池的梯次利用及金属回收

                                     

目前已发表SCI论文60多篇,其中以第一作者或通讯作者身份在Nature Communications, Advanced Energy Materials, Matter, ACS Nano, Nano Energy, Advanced Science, Advanced Functional Materials等杂志上发表论文23篇,被引超过1700次,H因子为22。

 

科研项目

加拿大自然科学与工程研究基金委员会,Canada Strategic Grant, Smart graphene-based composites for high-energy and self-healing lithium-ion batteries, 2017.01至2020.12, 487,200$,已结题,参与。

加拿大自然科学与工程研究基金委员会,Canada Strategic Grant, Advanced flame-retardant materials and fabrication methods, Canada Strategic Grant, 2014.01至2016.12, 208,500$,已结题,参与。

 

社会活动:

长期担任Materials Horizons、ACS Applied Materials & Interfaces等材料化学领域杂志期刊的审稿人。

 

会议报告:

“Synergistic Engineering of Defects and Architecture in Metal Chalcogenide towards Fast and Reliable Electrocatalytic Behavior for Lithium-Sulfur Batteries", 2020 MRS Spring Meeting, 2020.11.21 (特邀报告).

“Tuning Shell Numbers of Transition Metal Oxide Hollow Microspheres toward Durable and Superior Lithium Storage", Tsinghua-Waterloo Joint Forum on Advances in Energy and Environmental Technologies, 2019.07.29 (海报展示).

“高性能锂硫电池的设计与应用”, 东南大学,2018.10.17 (特邀报告).

“Design and Synthesis of Transition Metal Compound for Energy Storage System”, 2018年东南大学国际材料青年学者论坛,2018.05.25 (邀请报告).

 “Rational Design of Transition Metal Oxide Hollow Microspheres toward Durable and Superior Lithium Storage”, WIN Research Symposium on Next Generation Energy Systems, University of Waterloo, 2018.11.06 (海报展示).

 “Tuning Shell Numbers of Transition Metal Oxide Hollow Microspheres toward Durable and Superior Lithium Storage”, The International Conference on Electrochemical Energy Science and Technology (EEST 2018), 2018.08.16 (海报展示).

 

荣誉奖项:

2019年国家自费留学生奖学金,2019年滑铁卢纳米技术研究中心奖学金,2019 年安大略省研究生奖学金,2019 年滑铁卢大学校长奖学金,2018-2020年滑铁卢大学研究论文奖;2016-2019年滑铁卢大学博士生全额奖学金,2014-2016年麦克马斯特大学硕士生全额奖学金,2014年国家级大学生创新创业训练计划 (校级优秀项目),2014年孙伟院士奖学金,2012年东南大学三好学生。

                                                                                                                                                         

关键词:锂硫电池、锌离子电池、锂离子电池、固态电解质、电催化

 

代表性论文 (#:共同第一作者)

1)      Luo D.; Zheng L.; et al. Biomimetic Strategy to Construct Hybrid Structured Solid Electrolyte Interface for Long Life Lithium Metal Batteries. Nat. Commun., 2021, 12, 186.

2)      Luo D.#; Li M.#; et al. Electrolyte design for lithium metal anode-based batteries towards extreme temperature application. Adv. Sci., 2021, accepted.

3)      Xue Y.; Ma G.; Wang X.; Jin M.; Akigonlu E.; Luo D.*; Shui L.*. Bimetallic Hollow Tubular NiCoOx as Bifunctional Electrocatalyst for Enhanced Oxygen Reduction and Evolution Reaction. ACS Appl. Mater. Interfaces, 2021, 13(6), 7334-7342.

4)      Yang H.#; Luo D.#; et al. Reduction of N2 to NH3 by TiO2-supported Ni cluster catalysts: a DFT study. Phys. Chem. Chem. Phys., 2021, accepted.

5)      Xiao D.#; Li Q.#; Luo D.#; et al. Establishing the preferential adsorption of anion-dominated solvation structures in the electrolytes for high-energy-density lithium metal batteries. Adv. Funct. Mater., 2021, 2011109.

6)      Wang D.#; Cao L.#; Luo D.#; et al. Chain mail heterostructured hydrangea-like binary metal sulfides for high efficiency sodium ion battery. Nano Energy, 2021, 87, 106185.

7)      Luo D.#; Zhang Z.#; et al. Revealing the rapid electrocatalytic behavior of ultrafine amorphous defective Nb2O5-x nanocluster towards superior Li-S performance. ACS Nano, 2020, 14, 4849-4860.

8)      Zhang Z.#; Luo D.#; et al. Tantalum-Based Electrocatalyst for Polysulfide Catalysis and Retention for High-Performance Lithium-Sulfur Batteries. Matter, 2020, 3(3), 920-934.

9)      Wang D.#; Luo D.#; et al. Electronic Modulation of Transition Metal Oxides/Phosphates by Constructing Interpenetrated Interface for Reliable Li/S Electrocatalytic Behavior. Nano Energy, 2020, 105602.

10)   Wang J.#; Luo D.#; et al. “Soft on Rigid” Nanohybrid as the Self-supporting Multifunctional Cathode Electrocatalyst for High-performance Lithium-Polysulfide Batteries. Nano Energy, 2020, 78, 105293.

11)   Liu G.#; Luo D.#; et al. A Combined Ordered Macro-Mesoporous Architecture Design and Surface Engineering Strategy for High-Performance Sulfur Immobilizer in Li-S Batteries. Small, 2020, 16, 2001089.

12)   Shang C.#; Hu L.#; Luo D.#; et al. Pod-like Cu3Ge/Ge Heterostructure Coated by Nitrogen-Doped Carbon with Enhanced Ge Sodium Storage Efficiency. Adv. Sci., 2020, 2002358.

13)   Xiao D.#; Li Q.#; Luo D.#; et al. Regulating the Li+-Solvation Structure of Ester Electrolyte for High-Energy-Density Lithium Metal Batteries. Small, 2020, 2004688.

14)   Zhu Y.#; Li G.#; Luo D.#; et al. Unsaturated coordination polymer frameworks as multifunctional sulfur reservoir for fast and durable lithium-sulfur batteries. Nano Energy, 2020, 79, 105393.

15)   Luo D.#; Li G. R.#; et al. Synergistic Engineering of Defects and Architecture in Binary Metal Chalcogenide towards Fast and Reliable Lithium-Sulfur Batteries. Adv. Energy Mater., 2019, 9, 1900228.

16)   Zhang Z.#; Luo D.#; et al. In-situ ion-activated carbon nanospheres with tunable ultramicroporosity for superior CO2 capture. Carbon, 2019, 143, 531-541.

17)   Luo D.#; Deng Y. P.#; et al. Tuning Shell Numbers of Transition Metal Oxide Hollow Microspheres towards Durable and Superior Lithium Storage. ACS Nano, 2017, 11, 11521-11530.

18)   Li G.#; Luo D.#; et al. Enhanced reversible sodium-ion intercalation by synergistic coupling of few layered MoS2 and S-doped graphene. Adv. Funct. Mater., 2017, 27, 1702562.

19)   Luo D.#; Wallar C.#; et al. Enhanced capacitive performance of MnO2-multiwalled carbon nanotube electrodes, prepared using lauryl gallate dispersant. Colloids and Surfaces A, 2016, 509, 504-511.

20)   Luo D.; Zhang T. S.; Zhitomirsky I. Electrophoretic deposition of tannic acid-polypyrrolidone films and composites. J. Colloid Interface Sci., 2016, 469, 177-183.

21)   Clifford A.#; Luo D.#; Zhitomirsky I. Colloidal strategies for electrophoretic deposition of organic-inorganic composites for biomedical applications. Colloids and Surfaces A, 2017, 516, 219-225.

22)   Luo, D. and Zhitomirsky, I. Electrophoretic deposition of polyetheretherketone composites, containing huntite and alumina platelets. J. Electrochem. Soc., 2015, 162, D3057.

23)   Zhang, T.#, Luo, D.#, Wojtal, P. and Zhitomirsky, I. Electrophoretic deposition of flame-retardant polymer–huntite coatings. Mater. Lett., 2015, 159, 106-109.

 

代表性专利

一种高效制备金纳米棒-石墨烯薄膜复合结构的方法         CN103484843B



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