Is this you? Create Your Porfile

Yang Guangzhi

East China University of Science and Technology

Archive Network Publication Hotspot Collaboration

Network

Latest external collaboration on country level. Dive into details by clicking on the dots.

Explore More

Hotspot

Dive into the research topics where Yang Guangzhi is active.

Explore More

Publication

Featured researches published by Yang Guangzhi.

无机材料学报 | 2013

SnO 2 /石墨烯锂离子电池负极材料的制备及其电化学行为研究

Yu Zhen-Jun; Wang Yan-Li; Deng Hong-Gui; Zhan Liang; Yang Guangzhi; Yang Junhe; Ling Licheng

以氧化石墨和氯化亚锡为原料, 采用原位合成法制得SnO 2 /石墨烯纳米复合材料。该方法不需外加还原剂, 也避免了SnO 2 纳米粒子和石墨烯在机械混合过程中的团聚问题。XRD和TEM等的分析结果表明, 纳米SnO 2 颗粒都均匀地分散在石墨烯表面, 其中纳米SnO 2 的粒径和石墨烯的厚度分别为3~6 nm和1.5~2.0 nm。电化学测试结果表明: 在200 mA/g电流密度下循环100次后, SnO 2 /石墨烯负极材料的嵌锂容量可稳定在552 mAh/g, 容量保持率比单纯纳米SnO 2 提高了4.4倍; 在40、400、800 mA/g的电流密度下, SnO 2 /石墨烯负极材料的放电容量可分别保持在724.5、426.0、241.3 mAh/g, 表现出较好的倍率性能, 该结果归因于石墨烯良好的导电性及其二维纳米结构。以氧化石墨和氯化亚锡为原料, 采用原位合成法制得SnO 2 /石墨烯纳米复合材料。该方法不需外加还原剂, 也避免了SnO 2 纳米粒子和石墨烯在机械混合过程中的团聚问题。XRD和TEM等的分析结果表明, 纳米SnO 2 颗粒都均匀地分散在石墨烯表面, 其中纳米SnO 2 的粒径和石墨烯的厚度分别为3~6 nm和1.5~2.0 nm。电化学测试结果表明: 在200 mA/g电流密度下循环100次后, SnO 2 /石墨烯负极材料的嵌锂容量可稳定在552 mAh/g, 容量保持率比单纯纳米SnO 2 提高了4.4倍; 在40、400、800 mA/g的电流密度下, SnO 2 /石墨烯负极材料的放电容量可分别保持在724.5、426.0、241.3 mAh/g, 表现出较好的倍率性能, 该结果归因于石墨烯良好的导电性及其二维纳米结构。

Journal of Applied Polymer Science | 2009

Emulsifier-free emulsion polymerization of acrylonitrile in the presence of poly(methyl methacrylate) seed particles: Influence of the addition mode on the surface morphology

Yang Guangzhi; Liu Yang; Jia Runping; Xu Risheng; Wang Xia; Ling Li-cheng; Yang Junhe

Archive | 2015

Graphene-containing metal surface treatment agent and preparation method of anti-corrosion coating

Li Jing; Li Yaya; Yang Zhenzhen; Cui Jincan; Yang Junhe; Qiu Hanxun; Yang Guangzhi

Journal of Inorganic Materials | 2012

Synthesis of Graphene with Microwave Irradiation in Liquid Phase

Wang Can; Wang Yan-Li; Zhan Liang; Yang Guangzhi; Yang Junhe; Qiao Wenming; Ling Licheng

Archive | 2013

Method for preparing polyacrylonitrile nano-fibers by circulation and coaxial electrospinning of surface active agent solution

Yu Dengguang; Wang Xia; Yang Junhe; Yang Guangzhi; Liao Yaozu; Bai Guanning

New Carbon Materials | 2011

Research progress in nanofiltration membrane based on carbon nanotubes

Zhang Lei; Wang Xianying; He Xing; Yang Junhe; Zhao Bin; Yang Guangzhi; Qiu Hanxun; Tang Zhihong

Archive | 2015

Preparation method of aligned carbon nano-tube nanofiltration membranes

Zhao Bin; Yang Junhe; Zhang Lei; Fang Kai; Wang Yan; Yan Shengjie; Pan Binbin; Tang Zhihong; Yang Guangzhi

Archive | 2017

High-temperature multifunctional coke reactivity testing equipment and method

Yang Guangzhi; Shi Ting; Yu Binbin; Ye Jinyu; Zhang Weiji; Yang Junhe

Archive | 2017

Testing method and evaluation method for coke thermal intensity index based on different coal ejection ratios

Yang Guangzhi; Shi Ting; Zhang Weiji; Song Shen; Yu Binbin; Wu Xinci; Yang Junhe

Archive | 2017

Gieseler-fluidity-based coal caking property parameter calculation method and evaluation method

Yang Guangzhi; Shi Ting; Zhang Weiji; Song Shen; Yu Binbin; Wu Xinci; Yang Junhe

Explore More

Collaboration

Dive into the Yang Guangzhi's collaboration.

Top Co-Authors

Yang Junhe

Shanghai Institute of Technology

View shared research outputs

Top Co-Authors

Qiu Hanxun

University of Shanghai for Science and Technology

View shared research outputs

Top Co-Authors

Tang Zhihong

University of Shanghai for Science and Technology

View shared research outputs

Top Co-Authors

Yu Binbin

University of Shanghai for Science and Technology

View shared research outputs

Top Co-Authors

Zhao Bin

University of Shanghai for Science and Technology

View shared research outputs

Top Co-Authors

Li Jing

Beijing University of Chinese Medicine

View shared research outputs

Top Co-Authors

Ling Licheng

Chinese Academy of Sciences

View shared research outputs

Top Co-Authors

Song Shen

University of Shanghai for Science and Technology

View shared research outputs

Top Co-Authors

Wang Xia

Shanghai Institute of Technology

View shared research outputs

Top Co-Authors

Zhang Lei

University of Shanghai for Science and Technology

View shared research outputs

Explore More