2021三峡大学材料科学与工程考研调剂信息
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学校省份:湖北
学校名称:三峡大学
学院名称:暂无
专业名称:材料科学与工程
专业类型:学硕/专硕
学习方式:全日制
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2021三峡大学材料科学与工程考研调剂信息:
导师简介
陈卫丰(邮箱 504901529@qq.com,电话 18671704639),男,1977年生,汉族,博士,讲师,硕士生导师{"考研派考研调剂中心" 小程序小编整理}。2009年毕业于中山大学材料物理与化学专业,获工学博士学位。之后,在北京大学(深港产学研基地)进行博士后研究。2011年至今在三峡大学任职,主要研究方向为石墨烯量子点、纳米功能材料及其应用,曾主持或参与国家重点实验室项目、湖北省教育厅项目、宜昌市科技局项目、深圳基础研究计划项目、广东省节能减排重大专项等研究项目。目前,已在nano research (中国卓越计划领军期刊), green chemistry, acs sustainable chemistry&engineering, nanotechnology reviews, rsc advances等国际期刊上发表论文10余篇,获授权发明专利6项,获2018年湖北省科技进步奖三等奖1项,三峡大学教学成果奖2项。
一、 第一作者或通讯作者论文
[1] chen, weifeng ; lv, guo ; zhou, qiyun ; shen, jialu ; liu, xiang*; dai, zhongxu*. synthesis of graphene quantum dots for their supramolecularpolymorphic architectures. nano research (卓越计划领军期刊), 2020, doi, 10.1007/s12274-020-3236-4. (if=8.1,1区)
[2] chen, weifeng; li, dejiang; tian, li; xiang, wei; wang, tianyuan; hu, weimin; hu, yulin; chen, shaona; chen, jianfeng*; dai, zhongxu*; synthesis of graphene quantum dots from natural polymer starch for cell imaging, green chemistry, 2018, 20: 4438-4442. (if=9.48,被引次数{"考研派考研调剂中心" 小程序小编整理}:56) (1区)
[3] chen, weifeng; shen, jialu; huang yingping; liu, xiang*; didier astruc*. catalyzed hydrolysis of tetrahydroxydiboron by graphene quantum dot- stabilized transition-metal nanoparticles for hydrogen evolution. acs sustainable chemistry&engineering, 2020, 8, 7513-7522. (if=7.63) (1区)
[4] chen, weifeng; lv, guo; hu, weimin; li, dejiang; chen, shaona*; dai, zhongxu*; synthesis and applications of graphene quantum dots: a review, nanotechnology reviews, 2018, 7: 157-185. (if=3.64,被引次数:40) (3区)
[5] shen, jialu; chen, weifeng*; lv, guo; yang, zihan; yan, jiaying; liu, xiang*; dai, zhongxu*; hydrolysis of nh3bh3 and nabh4 by graphene quantum dots-transition metal nanoparticles for highly effective hydrogen evolution, int. j. hydrogen energ., 2021, 46, 796-805.(2区)
[6] chen, weifeng; shen, jialu; chen, shaona; yan, jiaying; zhang, nuonuo; zheng, kaibo; liu, xiang*; synthesis of graphene quantum dot-stabilized gold nanoparticles and their application, rsc advances, 2019, 9: 21215-21219. (if=3.12) (3区)
[7] chen, weifeng; hu weimin; li, dejiang; chen, shaona*; dai, zhongxu*; a critical review on the development and performance of polymer/graphene nanocomposites, science and engineering of composite materials, 2018, 25: 1059-1073. (if=0.7) (4区)
[8] chen, weifeng; shen, jialu; lv, guo; li, dejiang; hu, yulin; zhou, changlin; liu, xiang*; dai, zhongxu*; green synthesis of graphene quantum dots from cotton cellulose, chemistryselect, 2019, 4: 2898-2902. (if=1.81) (4区)
[9] chen, weifeng; hu, weimin; li, dejiang; chen, shaona*, dai zhongxu*. the preparation approaches of polymer/graphene nanocomposites and their appilcation research progress as electrochemical sensors. journal of new materials for electrochemical systems, 2017, 20: 205-221. (if=0.26) (4区)
[10] chen, hui; zhou, yang; zheng, kaibo*; zhang, nuonuo; tan, xuecai; chen, weifeng*. a light‐up fluorescent probe for detection of formaldehyde in serum and gaseous based on d‐pet process, chemistryselect, 2019, 4, 9622-9626. (if=1.81) (4区)
[11] shen, jialu; chen, weifeng*; yang, zihan; lv, guo; cao, jie; li, deying; liu, xiang;* a critical review of graphene quantum dots: synthesis and application in biosensors, nano, doi: 10.1142/s1793292021300012.(4区)
[12] shen, jialu; chen, weifeng*; liu, xiang;* facile synthesis of graphene quantum dots from glucan and their application for deoxidizer and cell imaging, journal of chemical research, doi: 10.1177/1747519820973934.(4区)
[13] chen, weifeng; lv, guo; shen, jialu; li, dejiang; liu, xiang *; dai, zhongxu*.the preparation and application of polymer/graphene nanocomposites.emerging materials research, 2020, 9(3):943-959. doi,10.1680/jemmr.17.00031. (4区)
[14] 陈卫丰,吕果,陶华超,陈少娜,李德江,代忠旭*. 石墨烯量子点的制备及在生物传感器中的应用研究进展. 材料导报,2019,33,1156-1162. (ei)
二、 授权发明专利
[1] 陈卫丰,李德江,胡为民,李德莹,张争光,刘杨,李永双,晏佳莹,阳青青,一种可生物降解的医用纳米复合多孔材料,zl2016104421545
[2] 陈卫丰,李德江,李永双,代忠旭,陈少娜,一种氧化石墨烯增强的pvc/cpe复合管材及其制备方法,2018.09.28,zl201710756871
[3] 陈卫丰,李德江,李永双,代忠旭,陈少娜,胡玉林,一种氧化石墨烯水性胶黏剂及其制备方法,zl201810557188.8
[4] 陈卫丰,杨海滨,李德江,王龙,李永双,一种高频高速挠性覆铜板及其制备方法,zl2017103442233
[5] 陈卫丰,李德江,王龙,李永双,一种高介电性能挠性覆铜板及其制备方法,zl201710013041.8
[6] 陈卫丰,吕果,李德江,李永双,代忠旭,陈少娜,一种氧化石墨烯增强的pvc/abs复合管材及其制备方法,201711288240.6
学校奖励政策
1、国家奖学金:硕士研究生20000元/年;
2、国家助学金:硕士研究生6000元/年/生;
3、新生学业奖学金:一等奖学金12000元/年,二等8000元/年,三等4000元/年;
4、单项奖学金:覆盖面30%以上;
5、助研津贴:所在研究团队根据学生科研业绩评定发放;
6、对家庭困难、学习成绩优秀的学生,学校可提供一定的助研、助教、助管岗位和协助办理助学贷款。
7、设有研究生科研创新基金,用于资助有一定科研基础、可望取得高水平科研成果、体现学科交叉和学科创新的选题。
8、设有硕士学位论文培优基金,用于资助研究生的学位论文工作。
导师简介
陈卫丰(邮箱 504901529@qq.com,电话 18671704639),男,1977年生,汉族,博士,讲师,硕士生导师{"考研派考研调剂中心" 小程序小编整理}。2009年毕业于中山大学材料物理与化学专业,获工学博士学位。之后,在北京大学(深港产学研基地)进行博士后研究。2011年至今在三峡大学任职,主要研究方向为石墨烯量子点、纳米功能材料及其应用,曾主持或参与国家重点实验室项目、湖北省教育厅项目、宜昌市科技局项目、深圳基础研究计划项目、广东省节能减排重大专项等研究项目。目前,已在nano research (中国卓越计划领军期刊), green chemistry, acs sustainable chemistry&engineering, nanotechnology reviews, rsc advances等国际期刊上发表论文10余篇,获授权发明专利6项,获2018年湖北省科技进步奖三等奖1项,三峡大学教学成果奖2项。
一、 第一作者或通讯作者论文
[1] chen, weifeng ; lv, guo ; zhou, qiyun ; shen, jialu ; liu, xiang*; dai, zhongxu*. synthesis of graphene quantum dots for their supramolecularpolymorphic architectures. nano research (卓越计划领军期刊), 2020, doi, 10.1007/s12274-020-3236-4. (if=8.1,1区)
[2] chen, weifeng; li, dejiang; tian, li; xiang, wei; wang, tianyuan; hu, weimin; hu, yulin; chen, shaona; chen, jianfeng*; dai, zhongxu*; synthesis of graphene quantum dots from natural polymer starch for cell imaging, green chemistry, 2018, 20: 4438-4442. (if=9.48,被引次数{"考研派考研调剂中心" 小程序小编整理}:56) (1区)
[3] chen, weifeng; shen, jialu; huang yingping; liu, xiang*; didier astruc*. catalyzed hydrolysis of tetrahydroxydiboron by graphene quantum dot- stabilized transition-metal nanoparticles for hydrogen evolution. acs sustainable chemistry&engineering, 2020, 8, 7513-7522. (if=7.63) (1区)
[4] chen, weifeng; lv, guo; hu, weimin; li, dejiang; chen, shaona*; dai, zhongxu*; synthesis and applications of graphene quantum dots: a review, nanotechnology reviews, 2018, 7: 157-185. (if=3.64,被引次数:40) (3区)
[5] shen, jialu; chen, weifeng*; lv, guo; yang, zihan; yan, jiaying; liu, xiang*; dai, zhongxu*; hydrolysis of nh3bh3 and nabh4 by graphene quantum dots-transition metal nanoparticles for highly effective hydrogen evolution, int. j. hydrogen energ., 2021, 46, 796-805.(2区)
[6] chen, weifeng; shen, jialu; chen, shaona; yan, jiaying; zhang, nuonuo; zheng, kaibo; liu, xiang*; synthesis of graphene quantum dot-stabilized gold nanoparticles and their application, rsc advances, 2019, 9: 21215-21219. (if=3.12) (3区)
[7] chen, weifeng; hu weimin; li, dejiang; chen, shaona*; dai, zhongxu*; a critical review on the development and performance of polymer/graphene nanocomposites, science and engineering of composite materials, 2018, 25: 1059-1073. (if=0.7) (4区)
[8] chen, weifeng; shen, jialu; lv, guo; li, dejiang; hu, yulin; zhou, changlin; liu, xiang*; dai, zhongxu*; green synthesis of graphene quantum dots from cotton cellulose, chemistryselect, 2019, 4: 2898-2902. (if=1.81) (4区)
[9] chen, weifeng; hu, weimin; li, dejiang; chen, shaona*, dai zhongxu*. the preparation approaches of polymer/graphene nanocomposites and their appilcation research progress as electrochemical sensors. journal of new materials for electrochemical systems, 2017, 20: 205-221. (if=0.26) (4区)
[10] chen, hui; zhou, yang; zheng, kaibo*; zhang, nuonuo; tan, xuecai; chen, weifeng*. a light‐up fluorescent probe for detection of formaldehyde in serum and gaseous based on d‐pet process, chemistryselect, 2019, 4, 9622-9626. (if=1.81) (4区)
[11] shen, jialu; chen, weifeng*; yang, zihan; lv, guo; cao, jie; li, deying; liu, xiang;* a critical review of graphene quantum dots: synthesis and application in biosensors, nano, doi: 10.1142/s1793292021300012.(4区)
[12] shen, jialu; chen, weifeng*; liu, xiang;* facile synthesis of graphene quantum dots from glucan and their application for deoxidizer and cell imaging, journal of chemical research, doi: 10.1177/1747519820973934.(4区)
[13] chen, weifeng; lv, guo; shen, jialu; li, dejiang; liu, xiang *; dai, zhongxu*.the preparation and application of polymer/graphene nanocomposites.emerging materials research, 2020, 9(3):943-959. doi,10.1680/jemmr.17.00031. (4区)
[14] 陈卫丰,吕果,陶华超,陈少娜,李德江,代忠旭*. 石墨烯量子点的制备及在生物传感器中的应用研究进展. 材料导报,2019,33,1156-1162. (ei)
二、 授权发明专利
[1] 陈卫丰,李德江,胡为民,李德莹,张争光,刘杨,李永双,晏佳莹,阳青青,一种可生物降解的医用纳米复合多孔材料,zl2016104421545
[2] 陈卫丰,李德江,李永双,代忠旭,陈少娜,一种氧化石墨烯增强的pvc/cpe复合管材及其制备方法,2018.09.28,zl201710756871
[3] 陈卫丰,李德江,李永双,代忠旭,陈少娜,胡玉林,一种氧化石墨烯水性胶黏剂及其制备方法,zl201810557188.8
[4] 陈卫丰,杨海滨,李德江,王龙,李永双,一种高频高速挠性覆铜板及其制备方法,zl2017103442233
[5] 陈卫丰,李德江,王龙,李永双,一种高介电性能挠性覆铜板及其制备方法,zl201710013041.8
[6] 陈卫丰,吕果,李德江,李永双,代忠旭,陈少娜,一种氧化石墨烯增强的pvc/abs复合管材及其制备方法,201711288240.6
学校奖励政策
1、国家奖学金:硕士研究生20000元/年;
2、国家助学金:硕士研究生6000元/年/生;
3、新生学业奖学金:一等奖学金12000元/年,二等8000元/年,三等4000元/年;
4、单项奖学金:覆盖面30%以上;
5、助研津贴:所在研究团队根据学生科研业绩评定发放;
6、对家庭困难、学习成绩优秀的学生,学校可提供一定的助研、助教、助管岗位和协助办理助学贷款。
7、设有研究生科研创新基金,用于资助有一定科研基础、可望取得高水平科研成果、体现学科交叉和学科创新的选题。
8、设有硕士学位论文培优基金,用于资助研究生的学位论文工作。
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