白柳杨
日期:2023-06-24  来源:beat365官方网站  浏览量:1084


白柳杨   教授

所在系所       新能源科学与工程工程系

办公电话       0396-2853410

通讯地址       驻马店beat365官方网站7号楼070308

电子邮件       lybai@huanghuai.edu.cn

 

教育背景

2004.09-2009.06    中国科学院研究生院  化学工程专业博士

2000.09-2004.06    郑州大学材料工程学院  材料科学与工程专业学士

工作经历

2018.07-至今  beat365正版唯一  副教授/教授

2019.09-至今  信阳师范学院  硕士研究生导师

2009.07-2018.06  中科院过程工程研究所  助理研究员/副研究员

2012.09-2018.06  中国科学院大学  硕士研究生导师

研究方向

应用等离子体技术

新能源材料及废旧资源循环利用

科研项目

20192022 国家自然科学基金项目等离子体合成超细硼化锆粉体基础研究负责人

20212023 省高校科技创新人才项目等离子体制备亚微米级球形氧化铝研究负责人

20192020 省科技攻关项目高安全动力锂离子电池复合隔膜材料设计与研发负责人

20212022 省科技攻关项目废旧太阳能光伏组件回收硅材料高值化利用技术负责人

20162018 国家空天项目超细硅粉负责人

代表性论文、专著

[1] Liuyang Bai*, Fangli Yuan, Zheng Fang, Qi Wang, Yuge Ouyang, Huacheng Jin, Jiaping He, Wenfu Liu and Yinling Wang, RF Thermal Plasma Synthesis of Ultrafine ZrB2-ZrC, Composite PowdersNanomaterials, 2020, 10, 2497

[2] Yuge Ouyang, Xiaofei Li, Fei Ding, Liuyang Bai*, Fangli Yuan*, Simultaneously enhance thermal conductive property and mechanical properties of silicon rubber composites by by introducing ultrafine Al2O3 nanospheres prepared via thermal plasmaComposites Science and Technology, 2020, 190: 108019.

[3] Ouyang Yuge, Fei Ding; Bai Liuyang*, Xiaofei Li, Guolin Hou, Junmei Fan, Zhiqiang Sun, Fangli Yuan*, Design of network Al2O3 spheres for significantly enhanced thermal conductivity of polymer composites, Composites Part A 2020, 128: 105673.

[4] Ouyang Yuge, Bai Liuyang*, Zhiqiang Sun, Fei Ding; Fangli Yuan*, A new strategy for dense Al2O3 ceramics by spherical powders prepared via thermal plasma, Ceramics International 2019, 45: 2012-2019.

[5] He Jiaping, Bai Liuyang*, Huacheng Jin, Zhiyuan Ji, Guolin Hou, Fangli Yuan*, Simulation and experimental observation of silicon particles' vaporization in RF thermal plasma reactor for preparing Si nano-powder, Powder Technology, 2017, 313: 27-35.

[6] Liuyang Bai, Huacheng Jin, Chen Lu, Fangli Yuan*, Shulan Huang, Jinlin Li, RF thermal plasma-assisted metallothermic synthesis of ultrafine ZrB2 powders [J]. Ceramics International, 2015, 41: 7312-7317.

[7] Liuyang Bai*, Yuge Ouyang, Jun Song, Zhi Xu, Wenfu Liu, Jingyu Hu, YinlingWang*, Fangli Yuan, Synthesis of Metallic Nanocrystals: From Noble Metals to Base Metals, Materials 2019, 12, 1497.

[8] Liuyang Bai*, Jiaping He, Yuge Ouyang, Wenfu Liu, Huichao Liu, Haizi Yao, Zengshuai Li, Jun Song, Yinling Wang, Fangli Yuan*, Modeling and Selection of RF Thermal Plasma Hot-Wall Torch for Large-Scale Production of Nanopowders, Materials, 2019, 12: 2141.

[9] Liuyang Bai*, Preparation and characterization of Ni-Cu composite nanoparticles for conductive paints, Science and Engineering of Composite Materials, 2019, 26: 255-260

[10] Liuyang Bai*, Shouliang Ni, Huacheng Jin, Jiaping He, Yuge Ouyang, Fangli Yuan*, ZrB2 powders with low oxygen content: synthesis and characterization, International Journal of Applied Ceramic Technology, 2018, 15: 508-513.

[11] He Jiaping, Bai Liuyang*, Hucheng Jin, Fangli Yuan*, Optimization of tungsten particles spheroidization with different size in thermal plasma reactor based on numerical simulation, Powder Technology, 2016, 302: 288-297.

[12] Liuyang Bai, Yongwei Wang, Huayi Chen, Fangli Yuan, Large-scale production of well-dispersed submicro ZrB2 and ZrC powders, Cryst. Res. Technol. 2016, 51: 428-432

[13] Liuyang Bai, Haibao Zhang, Huacheng Jin, Shulan Huang, Jinlin Li, Fangli Yuan. Radio-frequency atmospheric-pressure plasma synthesis of ultrane ZrC powders. International Journal of Applied Ceramic Technology 2013,10: E274-281

[14] Liuyang Bai, Haibao Zhang, Huacheng Jin, Fangli Yuan. Synthesis of Nickel Powders: From Spheres to Monodispersed Clusters. Journal of Cluster Science (2012)23: 357–364.

[15] Liuyang Bai, Junmei Fan, Peng Hu, Fangli Yuan, Jinlin Li, Qing Tang. RF Plasma Synthesis of Nickel Nanopowders via Hydrogen Reduction of Nickel Hydroxide/Carbonate. Journal of Alloys and Compounds. 2009, 481, 563–567

[16] Liuyang Bai, Junmei Fan, Yuebin Cao, Fangli Yuan, Ahui Zuo, Qing Tang. Shape-controlled Synthesis of Ni Particles via Polyol Reduction. Journal of Crystal Growth. 2009, 311, 2474-2479

[17] Liuyang Bai, Fangli Yuan, Qing Tang, Jinlin Li, Hojin Ryu. Preparation of well dispersed spherical nickel powders with uniform size via mild solvothermal route. Journal of Materials Science, 2008, 43, 1969-1775

[18] Liuyang Bai, Fangli Yuan, Qing Tang. Synthesis of nickel nanoparticles with uniform size via a modified hydrazine reduction route. Materials Letters, 2008, 62, 2267-2270

[19] Liuyang Bai, Fangli Yuan, Peng Hu, Shikai Yan, Xi Wang and Shaohua Li. A facile route to sea urchin-like NiO architectures. Materials Letters, 2007,61,1698-1700

学术兼职

河南省新能源废旧资源循环利用技术装备工程研究中心主任 2019-

中国再生资源产业技术创新战略联盟青年专家委员 2020-

荣誉奖励

天中学者  2020

河南省高层次人才  2020

河南省教育厅学术技术带头人  2020

河南省高校科技创新人才  2020

北京市科学技术二等奖  2010

中国石油和化学工业技术发明三等奖  2011

 

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