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梁叔全
  • Personal Information

    Professor



    School/Department:School of Materials science and Engineering

    Education Level:With Certificate of Graduation for Doctorate Study

    Sex:Male

    Degree:Doctoral degree

    Status:Employed

  • Profile

    梁叔全教授, 籍贯:四川、蒲江

    正高二级;湖南大学本科; 天津大学硕士; 中南大学博士

    1993-1994--匈牙利科学院无机合成研究所访问学者

    1995-1998--马来西亚理科大学访问学者

    2000--第十届全国优秀科技图书二等奖

    2001--第五届国家图书奖提名奖

    2002--全国高等学校优秀骨干教师

    2003--国家科技进步二等奖,全国聘请外国文教专家先进个人

    2005--享受国务院特殊津贴专家

    2008--国家引进国外智力贡献奖荣誉称号

    2012--澳大利亚Monash大学工程学约翰莫纳士爵士奖章

    2015--湖南省人民政府芙蓉学者特聘教授成就奖获得者

    2016--第十一届湖南省人民政府教学成果一等奖,宝钢教育基金会全国高等学校优秀教师特等奖提名奖获得者

    2017--湖南省优秀教师荣誉称号

    2018--新材料在线《大国之材2018年度人物》

    2019--第十二届湖南省人民政府教学成果二等奖

    多年来,先后承担了金属材料工程、金属材料热处理、金属学、晶体学、陶瓷材料学等数门本科生和研究生课程,指导100多名本科生、50多名硕士生、20多名博士生。学生获第四届“挑战杯”湖南省大学生创业计划竞赛金奖,第八届“挑战杯”湖南省大学生课外学术科技作品特等奖,第七届“挑战杯”中国大学生创业计划竞赛银奖,第十一届“挑战杯”全国大学生课外学术科技作品竞赛一等奖;长沙市第十一届大学生创新创业比赛唯一特等奖。

    近年来,在国家自然科学基金重点项目、面上项目、原国家863计划、973计划项目等支持资助下,从事材料的合成、结构分析与性能研究。相关研究成果发表高水平论文200余篇,入选热点论文13篇,ESI高被引论文38篇,总引用7467次,H指数45。 发表论文的国际著名权威学术刊物有:Advanced Materials, Energy & environmental science,Advanced Energy Materials, Advanced Functional Materials,ACS Nano,ACS Energy Letters,Nano Energy,Energy Storage Materials, Advanced Science, Nanoscale,Journal of Materials Chemistry A, Acta Materialia, Journal of American Ceramic Society, Journal of European Ceramic Society等,申请专利30余项。科研获国家科技进步二等奖1项、部级科技进步一等奖1项、省级科技进步二等奖1项。专著《粉末注射成型流变学》获第五届国家图书奖提名奖、第十届全国优秀科技图书奖二等奖。

    中国材料研究学会理事,中国中国机械工程学会陶瓷分会副理事长,中国仪表功能材料学会储能与动力电池及其材料专业委员会副主任委员,湖南省硅酸盐学会副理事长。曾任全国高等学校材料科学与工程实验管理理事会副理事长,教育部材料物理化学教学指导分委员会委员,政协湖南省委员会第九届、第十届委员,中南大学第二届、第三届学术委员会委员;中南大学第五届学位委员会委员。

    《Research And Application of Materials Science》,《Transaction of Nonferrous Metals Soociety of China》,《中国有色金属学报》,《稀有金属材料科学与工程》,《中南大学学报(自然科学版,英文版)》,《材料热处理学报》期刊编委;JACS,ACS Nano, Electrochemistry Communications, Journal of Physical Chemistry C 和Journal of Materials Chemistry A 等期刊的审稿人。


    代表性论文:

    1. Shuquan Liang* et al. Surface-Preferred Crystal Plane for a Stable and Reversible Zinc Anode. Advanced Materials, 2021, 2100187. DOI: 10.1002/adma.202100187.

    2. Shuquan Liang* et al. Solvent Molecule Cooperation Enhancing Lithium Metal Battery Performance at Both Electrodes. Angewandte Chemie International Edition 59 (2020): 7797-7802.

    3. Shuquan Liang* et al. Fundamentals and perspectives in developing zinc-ion battery electrolytes: A comprehensive review. Energy & Environmental Science, 2020, 13, 4625.

    4. Shuquan Liang* et al. Issues and Opportunities Facing Aqueous Zinc-ion Batteries. Energy & Environmental Science, 12 (2019) 3288-3304. (高被引论文)

    5. Shuquan Liang* et al. Li+ Ions Intercalated V2O5•nH2O with Enlarged Layered Spacing and Fast Ions Diffusion as Aqueous Zinc Ion Battery Cathode. Energy & Environmental Science. DOI: 10.1039/C8EE01651H. (高被引论文)

    6. Shuquan Liang* et al. Synthesis of Mo2N Nanolayer Coated MoO2 Hollow Nanostructures as High-Performance Anode Materials for Lithium-Ion Batteries. Energy & Environmental Science. 6, 2013, 2691.

    7. Shuquan Liang et al. Chemical Synthesis of 3D Graphene‐Like Cages for Sodium‐Ion Batteries Applications. Advanced Energy Materials, 2017, 1700797.

    8. Shuquan Liang et al. Uniform 8LiFePO4·Li3V2(PO4)3/C Nanoflakes for High-Performance Li-Ion Batteries. Nano Energy, 22, 2016, 48-58.

    9. Shuquan Liang* et al. Mechanistic Insights of Zn2+ Storage in Sodium Vanadates. Advanced Energy Materials. 2018, 1801819. (高被引论文)

    10. Shuquan Liang* et al. Observation of Pseudocapacitive Effect and Fast Ion Diffusion in Bimetallic Sulfides as an Advanced Sodium Ion Battery Anode. Advanced Energy Materials. 2018, 1703155. (高被引论文)

    11. Shuquan Liang* et al. Metal Organic Framework-Templated Synthesis of Bimetallic Selenides with Rich Phase Boundaries for Sodium-Ion Storage and Oxygen Evolution Reaction. ACS Nano. 13 (2019) 5635.

    12. Shuquan Liang* et al. Recent Advances in Aqueous Zinc-ion Batteries. ACS Energy Letters. DOI: 10.1021/acsenergylett.8b01426. (高被引论文)

    13. Shuquan Liang* et al. Suppressing Manganese Dissolution in Potassium Manganate with Rich Oxygen Defects Engaged High-Energy-Density and Durable Aqueous Zinc-Ion Battery. Advanced Functional Materials. 29 (2019) 1808375.

    14. Shuquan Liang* et al. Electrochemical Activation of Manganese-based Cathode in Aqueous Zinc-Ion Electrolyte. Advanced Functional Materials. 2020, DOI: 10.1002/adfm.202002711

    15. Shuquan Liang* et al. Nanoflake-Constructed Porous Na3V2(PO4)3/C Hierarchical Microspheres as a Bicontinuous Cathode for Sodium-Ion Batteries Applications. Nano Energy. 60 (2019) 312-323.

    16. Shuquan Liang* et al. MOFs Nanosheets Derived Porous Metal Oxide-Coated Three-Dimensional Substrates for Lithium-Ion Battery Applications. Nano Energy. 26, 2016, 57-65. (高被引论文)

    17. Shuquan Liang* et al. Potassium Vanadates with Stable Structure and Fast Ion Diffusion Channel as Cathode for Rechargeable Aqueous Zinc-Ion Batteries. Nano Energy. 2018, 51, 579-587.

    18. Shuquan Liang* et al. " Observation of Combination Displacement/Intercalation Reaction in Aqueous Zinc-ion Battery. " Energy Storage Materials, 18 (2019) 10-14.

    29. Shuquan Liang* et al. Encapsulation of CoSx Nanocrystals into N/S Co‐Doped Honeycomb‐Like 3D Porous Carbon for High‐Performance Lithium Storage. Advanced Science. 2018, 1800829.

    20. Shuquan Liang* et al. Caging Na3V2(PO4)2F3 Microcubes in Cross-Linked Graphene Enabling Ultra-Fast Sodium Storage and Long-Term Cycling. Advanced Science. 2018, 201800680.

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