基本信息 | 姓名 | 陆爱江 | ||
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系室 | 应用物理系 | |||
职称 | 副教授 | |||
职务 | 教师党支部书记/应用物理系副主任/365体育官方唯一入口工会副主席/东华大学妇委委员 | |||
联系方式 | 见学院黄页 | |||
电子邮件 | ajlu@dhu.edu.cn | |||
研究方向 | 计算物理 | |||
个人简介 | 长期坚持一线本科教学,摸索创新方式方法,以学生的获得作为个人教学努力的方向。 | |||
学习经历 | 起止年月 | 学校 | 专业 | 学位/学历 |
2004/09-2007/12 | 香港城市大学 | 应用物理 | 博士 | |
2001/09-2004/07 | 中国科学技术大学 | 凝聚态物理 | 硕士 | |
1997/09-2001/07 | 中国科学技术大学 | 凝聚态物理 | 学士 | |
工作经历 | 起止年月 | 单位 | 职称/职务 | |
2008/02-2018/01 | 东华大学 | 讲师 | ||
2018/02至今 | 东华大学 | 副教授 | ||
教学成果 | 课程名称 | |||
2021年度高等学校计算物理课程教学研究项目立项(JZW-21-JW-01) 2021年上海高校市级重点课程立项(《量子力学》) 2021年东华大学教学探索奖 2020年上海市高校教师教学创新大赛优秀奖 2018年第三届上海高校青年教师教学竞赛 二等奖 2014年东华大学青年教师讲课比赛一等奖 2014年上海市高等学校物理基础课程青年教师讲课比赛(上海赛区)一等奖 | ||||
科研成果 | 研究名称 | |||
主持完成国家自然基金青年项目1项 主持完成上海市自然科学基金项目1项 |
代表性论文&科研 |
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[1] 陆爱江,从解题到研究——“计算物理”案例式在线教学举例,《大学物理》40卷第1期51-54(2021) |
[2] Pang, ZQ (Pang, Zhenqian) ,Wan, JY (Wan, Jiayu) ,Lu, AJ (Lu, Aijiang) ,Dai, JQ (Dai, Jiaqi) ,Hu, LB (Hu, Liangbing) ,Li, T (Li, Teng) ,Giant tunability of interlayer friction in graphite via ion intercalation,EXTREME MECHANICS LETTERS,35,100616(2020)(SCI) |
[3] 陆爱江; 杨沁玉; 伍滨和,物理专业课程的导游式教学探索,《物理通报》第7期2-5(2019) |
[4] 陆爱江; 杨沁玉,值得举一反三的一维阶梯势问题,《物理通报》第7期16-21(2018) |
[5] Chen, FJ (Chen, Fengjuan) ; Yao, YG (Yao, Yonggang) ; Nie, AM (Nie, Anmin) ; Xu, SM (Xu, Shaomao); Dai, JQ (Dai, Jiaqi); Hitz, E (Hitz, Emily) ; Li, YJ (Li, Yiju) ; Lu, AJ (Lu, Aijiang) ; Huang, ZN (Huang, Zhennan) ; Li, TY (Li, Tangyuan) ; Shahbazian-Yassar, R (Shahbazian-Yassar, Reza) ; Hu, LB (Hu, Liangbing),High-Temperature Atomic Mixing toward Well-Dispersed Bimetallic Electrocatalysts,ADVANCED ENERGY MATERIALS,8(25)1800466(2018)(SCI) |
[6] Li, YJ (Li, Yiju) ; Chen, YN (Chen, Yanan); Nie, AM (Nie, Anmin) ; Lu, AJ (Lu, Aijiang) ; Jacob, RJ (Jacob, Rohit Jiji) ; Gao, TT (Gao, Tingting) ; Song, JW (Song, Jianwei) ; Dai, JQ (Dai, Jiaqi); Wan, JY (Wan, Jiayu) ; Pastel, G (Pastel, Glenn) ; Zachariah, MR (Zachariah, Michael R.) ; Yassar, RS (Yassar, Reza Shahbazian); Hu, LB (Hu, Liangbing),In Situ, Fast, High-Temperature Synthesis of Nickel Nanoparticles in Reduced Graphene Oxide Matrix,ADVANCED ENERGY MATERIALS,7(11),1601783(2017)(SCI) |
[7] Hitz, E; Wan, JY; Patel, A; Xu, Y; Meshi, L; Dai, JQ; Chen, YA; Lu, AJ; Davydoy, AV; Hu, LB Electrochemical intercalation of lithium ions into NbSe2 Nanosheets, ACS Applied Materials & Interfaces 8(19), 11390(2016)(SCI) |
[8] Aijiang Lu, Chuanyu Zhao and Jianlan Wu, Surface state and the aspect ratio of the Si3N4 nanowire, JOURNAL OF NANOSCIENCE & NANOTECHNOLOGY, vol 16, 8136(2016)(SCI) |
[9] Aijiang Lu, Chunrui Wang, Xiaofeng Xu and Binhe Wu, Quantum Confinement Observed in CdS Cages, JOURNAL OF NANOSCIENCE & NANOTECHNOLOGY, vol 16, 8160(2016)(SCI) |
[10] Liu Q, Zou RJ, Wu JH, Xu KB, Lu AJ+, Bando Y, Golberg D, Hu JQ Molten Au/Ge alloy migration in Ge nanowires, NANO LETTERS, 15(5), 2809-2016(2015)(SCI) |
[11] Zeng, YJ; Xing HZ; Huang, Y; Lu, AJ; Wang, CR; Xu, XF; Wang, JQ; Chen, XS Enhanced surface modification engineering (H,F, Cl, Br and NO2) of CdS nanowires with and without surface dangling bonds, Journal of applied physics, 118(5), 054305(2015)(SCI) |
[12] Lu Aijiang, Piezoelectric phenomenon of fullerene-graphene bonded structure, JOURNAL OF NANOMATERIALS, 943013(2014)(SCI) |
[13] Lu Aijiang, SiBN ceramics, a stealth material at high temperature, ACTA PHYSICA, vol 62(21) 2013(SCI) |
[14] Xu J, Lu AJ, Wang CR, Zou RJ, Liu XY, Wu X, Wang YX, Li SJ, Sun LT, Cehn XS, Oh H, Baek H, Yi GC, Chu JH, ZnSe-based longitudinal twinning nanowires, Advanced Engineering Materials, 16(4), 459(2013)(SCI) |
[15] Zou RJ, Zhang ZY, Liu Q, Xu KB, Lu AJ, Hu JQ, Li Q, Bando Y, Golberg D, Melting of metallic electrodes and their flowing through a carbon nanotube channel within a device, Advanced Materials, 25(19), 2693(2013)(SCI) |
[16] Lu Aijiang, Point defects in the silicon nanowire, PROCEEDINGS OF SPIE-THE INTERNATIONAL SOCIETY FOR OPTICAL ENGINEERING, 9068, 906805(2013)(EI) |
[17] A. J. Lu, Using the small silicon cluster as a building block, JPCS 245, 023062(2010). |
[18] A. J. Lu,R. Q. Zhang and S. R. Lee, Tunable electronic band structures of hydrogen-terminated <112> silicon nanowires, Appl. Phys. Lett. 92, 203109(2008). |
[19] A. J. Lu, R. Q. Zhang and S. T. Lee, Stress-induced Band Gap Tuning in <112> Silicon Nanowires ,Appl. Phys. Lett. 91, 263107(2007). |
[20] A. J. Lu, B. C. Pan, and J. G. Han, Electronic and vibrational properties of diamondlike hydrocarbons, Phys. Rev. B 72, 035447 (2005). |
[21] A. J. Lu and B. C. Pan,Influence of 5-1DB defect on hydrogen adsorption on carbon nanotube, Phys. Rev. B 71, 165416 (2005). |
[22] A. J. Lu and B. C. Pan,Nature of single vacancy in achiral carbon nanotubes, Phys. Rev.Lett. 92, 105504 (2004). |