课题组内部资料
1. 兰大校历
2. 组会安排
| 星期一 | 星期二 | 星期三 | 星期四 | 星期五 | 星期六 | 星期日 | |
|---|---|---|---|---|---|---|---|
| 08:30 - 09:15 | FJJ,LCY | ||||||
| 09:25 - 10:10 | FJJ,LCY | ||||||
| 10:30 - 11:15 | FJJ,LCY | ||||||
| 11:25 - 12:10 | |||||||
| 14:30 - 15:15 | |||||||
| 15:25 - 16:10 | |||||||
| 16:30 - 17:15 | |||||||
| 17:25 - 18:10 | |||||||
| 19:00 - 19:45 | |||||||
| 19:55 - 20:40 | |||||||
| 20:50 - 21:35 |
3. 常用脚本
3.1 前期建模
Using Fortran to generate the CONFIG file for DL_POLY from xyz file
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Using Fortran to generate the CONFIG file for DL_POLY from pdb file
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Using Fortran to extract related information from HISTORY file of DL_POLY
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3.2 后期处理
Using Fortran to extract related information from HISTORY file of DL_POLY
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Using Fortran to Change coordinate axis of REVCON or CONFIG files of DL_POLY
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4. 常用文件
学术界在收集数据、分析数据以及撰写和报告数据方面有一套严格的规则。成为研究员是一种职业资格。科学需要好奇心、原创思维、严谨、实验和对结果的批判性分析。但是几个世纪以来,科学的进步导致了国际范围内更强大的组织、科学家的专业网络、共享的实践和规则。在竞争性、协作性和无边界的研究环境中,进行可见且相关的科学研究需要强大的方法论并符合国际标准。科学家应该好奇,必须有耐心,必须努力做到客观,并且必须对改变持开放态度。
科研导论学习目标:
章节 - 科研导论幻灯片:
科研导论学习目标:
- 解释什么是知识以及如何获得知识。
- 描述当前的科学概念并描述其历史。
- 了解科学研究的基本假设。
- 描述科学研究的特点,并理解为什么每一项都是必要的。
- 解释发现逻辑和证明逻辑之间的区别。
- 描述擅长从事科学研究的人的典型特征。
- 描述科学研究的目标。
- 将伪科学与科学研究区分开来。
章节 - 科研导论幻灯片:
毕业论文(设计)实践教学是落实人才培养方案、实现人才培养目标的综合实践教学内容,是培养学生综合素质和专业核心能力的关键环节和重要途径,是对学生系统运用所学知识分析问题、解决复杂问题能力的最终检验与集中展示。本课题组要求所有同学严格按照学校和学院的毕业论文(设计)要求完成毕业论文(设计),常用文件如下:
本课题组发表论文如下:
- 2024-Guan-All-dielectric ultra-broadband transparent imidazole ionic liquid-based metamaterial absorber with a frustum-shaped structure (论文下载)
- 2024-Guan-Effect of the external electric fields on the polarization and vibrational spectrum of 1-ethyl-3-methylimidazolium bis(trifluormethylsulfonyl)imide on graphene surface (论文下载)
- 2024-Guan-Imidazole ionic liquids-based ultra-broadband metamaterial absorbers from cross-architecture design (论文下载)
- 2023-Ni-Molecular engineering of cation solvation structure for highly selective carbon dioxide electroreduction (论文下载)
- 2022-Guan-How do external forces related to mass and charge affect the structures and dynamics of an ionic liquid (论文下载)
- 2021-Chen-Atomistic insight into changes in the vibrational spectrum of ionic liquids under external electric field (论文下载)
- 2020-Zhang-Vibrational spectrum of 1-ethyl-3-methylimidazolium tetrafluoroborate on graphene surface (论文下载)
- 2020-Wang-Photoelectrocatalytic reduction of CO2 to paraffin using p-n heterojunctions (论文下载)
- 2020-Guan-In-depth investigation on THz spectrum of 1-butyl-3-methylimidazolium dicyanamide spreading on graphene surface by computational calculation (论文下载)
- 2019-Yang-Ultrabroadband metamaterial absorbers based on ionic liquids (论文下载)
- 2019-Yang-Microwave-absorbing properties of room-temperature ionic liquids (论文下载)
- 2019-Guan-Ionic liquid filled single-walled carbon nanotubes for flow-induced energy harvesting (论文下载)
- 2019-Du-Highly efficient and non-precious metal for the Li-SOCl2 battery using nitrogen doped carbon supported Cu nanoparticles (论文下载)
- 2018-Guan-Flow-induced voltage generation by driving imidazolium-based ionic liquids over a graphene nano-channel (论文下载)
- 2018-Chen-Influence of external electric Field on vibrational spectrum of imidazolium-based ionic liquids probed by molecular dynamics simulation (论文下载)
- 2017-Guan-Dynamic three-dimensional nanowetting behavior of imidazolium-based ionic liquids probed by molecular dynamics simulation (论文下载)
- 2016-Shao-Flow-induced voltage generation by moving a nano-sized ionic liquids droplet over a graphene sheet molecular dynamics simulation (论文下载)
- 2016-Li-Near infrared plasmonic optical trapping based on hybrid metal nanorod (论文下载)