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发布时间:
2021-03-01 18:48:00.0
调剂信息
学校省份
江苏
学校名称
学院名称
童敏曼副教授课题组
专业
专业类型
学习方式
全日制
招收人数
1
收藏人数
19
发布渠道
网络发布
联系方式
邮箱:582528392@qq.com
补充说明
姓名:童敏曼
职称:副教授
学校:江苏师范大学 化学与材料科学学院
专业:化学、材料
方向:材料基因组学,包括计算模拟,材料设计,实验合成
email:582528392@qq.com
本课题组招收2021届硕士研究生及调剂生,分析化学、材料化学、无机化学、有机化学、生物化学等考生均可。
导师简介:
童敏曼,博士,副教授,硕士生导师,主要研究方向为基于MOFCOF材料基因组学的材料(考研派团队助你顺利上岸)计与合成,包括计算机模拟材料设计、合成,应用方向有气体分离、电池和催化等。目前承担国家自然科学基金等科研项目若干,获江苏师范大学第十届青年教师教学三等奖。实验室研究氛围浓厚。为被录取的硕士提供研究经费、助研费、丰厚的科研奖励,以及参加国内外会议交流学习机会。欢迎各位同学加入!爱好数学和编程的同学强烈建议考虑我们哦!
童敏曼导师官方网页 http:chem.xznu.edu.cn36a0c15352a210592page.htm
近几年部分研究成果成果如下:
1. youshi lan, tongan yan, minman tong*, and chongli zhong*. large-scale computational assembly of ionic liquidmof composites: synergistic effect in the wire-tube conformation for efficient co2ch4 separation. journal of materials chemistry a, 2019, 7, 12556╟12564.
2. minman tong*, yadong zhang, tongan yan, guojian chen*, zhouyang long*, zhenglong qin, qingyuan yang, chongli zhong. computational insights on the role of nanochannel environment in the co2ch4 and h2ch4 separation using restacked covalent organic framework membranes. j. phys. chem. c, 2019, 123, 22949-22958.
3. tongan yan, youshi lan, minman tong*, and chongli zhong*. screening and design of covalent organic framework membranes for co2ch4 separation. acs sustainable chemistry engineering, 2019, 7, 1220-1227.
4. youshi lan#, xiagnhao han#, minman tong#, hongliang huang, qingyuan yang*, dahuan liu, xin zhao* and chongli zhong *. materials genomics methods for high-throughput construction of cofs and targeted synthesis. nature communications, 2018, 9, 5274. co-first author
5. minman tong, youshi lan, zhenglong qin*, and chongli zhong*. computation-ready, experimental covalent organic framework for methane delivery: screening and material design. the journal of physical chemistry c, 2018, 122, 13009-13016.
6. minman tong, youshi lan, qingyuan yang*, and chongli zhong. exploring the structure-property relationships of covalent organic frameworks for noble gas separations. chemical engineering science, 2017, 168, 456-464.
7. minman tong, youshi lan, qingyuan yang* and chongli zhong. high-throughput compu(考研派团队助你顺利上岸)tational screening and design of nanoporous materials for methane storage and carbon dioxide capture. green energy environment 2018, 3, 107-119.
8. youshi lan, minman tong*, qingyuan yang*, and chongli zhong. computational screening of covalent organic frameworks for the capture of radioactive iodine and methyl iodide. crystengcomm, 2017, 19, 4920-4926.
9. minman tong, qingyuan yang*, qintian ma, dahuan liu, and chongli zhong*. few-layered ultrathin covalent organic framework membranes for gas separation: a computational study. journal of materials chemistry a, 2016, 4, 124-131.
10. minman tong, qingyuan yang, and chongli zhong*. computational screening of covalent organic frameworks for ch4h2, co2h2 and co2ch4 separations. microporous and mesoporous materials, 2015, 210, 142-148.
11. ahmed, imteaz#, minman tong#, jong won jun, chongli zhong* and sung hwa jhung*. adsorption of nitrogen-containing compounds from model fuel over sulfonated metal╟organic framework: contribution of hydrogen-bonding and acid╟base interactions in adsorption. the journal of physical chemistry c, 2015, 120, 407-415.
12. minman tong, qingyuan yang *, yuanlong xiao and chongli zhong*. revealing the structure-property relationship of covalent organic frameworks for co2 capture from postcombustion gas: a multi-scale computational study. physical chemistry chemical physics, 2014, 16, 15189
13. minman tong, dahuan liu*, qingyuan yang, sabine devautour-vinot, guillaume maurin, and chongli zhong*. influence of framework metal ions on the dye capture behavior of mil-100 fe, cr mof type solids. journal of materials chemistry a, 2013, 1, 8534-8537.
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