袁方利
研究员
- 学历/学位: 研究生学历/博士学位
- 研究方向: 粉体材料
- 邮箱: flyuan@ipe.ac.cn
- 地址: 北京市海淀区中关村北二街1号
- 邮编: 100190
- 课题组网站:
简历介绍
1989年华中科技大学本科毕业,1989-1996年在中国科学院等离子体物理研究所攻读硕士和博士,1996年获得工学博士学位,1996-1998年在中国科学院过程工程研究所进行博士后研究,1998年博士后出站留所工作至今。2003年在韩国化学研究院做高级访问学者,2007年4-6月在韩国地质与资源研究所做高级访问学者,2009年2-4月在日本埼玉大学做高级访问学者。
主要开展特种粉体材料制备与应用研究,重点围绕热等离子体制备特种功能粉体进行设备研制、粉体材料研发和应用研究。热等离子体技术制备纳米粉体材料设备研制获得863计划的支持,研发了高频热等离子体制备粉体装置,纳米球形氧化铝、氧化硅和球形难熔金属粉及纳米金属粉体等实现了宏量制备。发表sci论文100多篇,获授权发明专利10项。2010年获北京市科学技术奖二等奖,2011年获中国石油和化学工业科学技术奖三等奖,2016获中国颗粒学会-赢创颗粒学创新奖。中国力学学会等离子体专业委员会委员,中国金属学会冶金过程物理化学分会委员,中国复合材料学会航天复合材料及应用专业委员会委员。
代表论著
1.yu du, jiaping he, benli cheng,guolin hou, fangli yuan, -moo3 sheets with high exposed plane reinforced by thermal plasma for stable li-ion storage,electrochimica acta, 2020,334,135593
2.yuge ouyang, xiaofei li, fei ding, liuyang bai, fangli yuan, simultaneously enhance thermal conductive property and mechanical properties of silicon rubber composites by introducing ultrafine al2o3 nanospheres prepared via thermal plasma, composites science and technology, 2020,190,108019
3.guolin hou,benli cheng,yijun yang,yu du,yihui zhang,baoqiang li,jiaping he,yunzhan zhou,ding yi,nana zhao,yoshio bando,dmitri golberg,jiannian yao,xi wang,fangli yuan,multiscale buffering engineering in silicon–carbon anode for ultrastable li-ion storage, acs nano,2019,13,10179-10190
4.li, baoqiang; jin, huacheng; ding, fei; bai, liuyang; yuan, fangli,fabrication of homogeneous mo-cu composites using spherical molybdenum powders prepared by thermal plasma spheroidization process, international journal of refractory metals & hard materials, 2018,73,13-21
5.袁方利,金化成,侯果林,白柳杨,丁 飞,李保强,陈运法,高频热等离子体制备特种粉体研究进展,过程工程学报,2018,18(6),1138-1144
6.jiaping he, liuyang bai, hucheng jin, zhiyuan jia,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
7.guolin hou, benli cheng, yuebin cao, mingshui yao, baoqiang li, chao zhang, qunhong weng, xi wang, yoshio bando, dmitri golberg, fangli yuan. scalable production of 3d plum-pudding-like si/c spheres: towards practical application in li-ion batteries. nano energy,2016, 24,111-120
8.hou, guolin; cheng, benli; cao, yuebin; yao, mingshui;ding, fei; hu, peng; yuan, fangli. scalable synthesis of highly dispersed silicon nanospheres by rf thermal plasma and their use as anode materials for high-performance li-ion batteries. journal of materials chemistry a,2015, 3,18136-18145
9.chen lu, junmei fan, peichen zhao, fangli yuan. preparation of hollow silica spheres by d c thermal plasma. powder technology, 2014,266,210-217
10.hu peng, yuan fangli, bai liuyang,li jinlin, chenyunfa. plasma synthesis of large quantities of zinc oxide nanorods. j.phys.chem.c ,2007,111,194-200