考研调剂招生信息
| 学校: | 江苏师范大学 |
| 专业: | 理学->化学 理学->材料科学与工程 |
| 年级: | 2022 |
| 招生人数: | 3 |
| 招生状态: | 正在招生中 |
| 联系方式: | 为保护个人隐私 |
补充内容
| 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2022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。 爱好数学和编程的同学强烈建议考虑我们哦! 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MOF/COF材料基因组学的材料设计与合成,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、国家重点研发计划子课题等科研项目若干,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 童敏曼导师官方网页 http://chem.xznu.edu.cn/36/a0/c15352a210592/page.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 liquid/MOF composites: synergist ic effect in the wire-tube conformation for efficient CO2/CH4 separation Journal of Materials Chemistry A, 2019, 7, 12556–12564. 2. Youshi Lan#, Xiagnhao Han#, Minman Tong#, Hongliang Huang, Qingyuan Yang*, Dahuan Liu, Xin Zhao* and Chongli Zhong*. Materials Gen omics Methods for High-Throughput Construction of COFs and Targeted Synthesis. Nature Communications, 2018, 9, 5274. 3. Xudong Zhao, Lei Pei, Ya-Nan Zhang, Hongliang Huang*, Xiuhong Zheng, Baosheng Liu*, Minman Tong*. Effective and irreversible removal o f radioactive barium ions in MOF-808 framework functionalized sulfonic acid groups. Green Chem. Eng. 2022, doi.org/10.1016/j.gce.2022.01.0 07 4. Minman Tong, Youshi Lan, Qingyuan Yang*, and Chongli Zhong. Exploring the Structure-Property Relationships of Covalent Organic Framew orks for Noble Gas Separations. Chemical Engineering Science, 2017, 168, 456-464. 5. Weichen Zhu#, Yuxuan He#, Minman Tong*, Xiaoyong Lai, Shijia Liang, XuWang, Yanjuan Li, XiaoYan*, Exploring the methods on improving CH4 delivery performance to surpass the advanced research project ageney-energy target, Chinese Journal Chemical Engineering, 2021, 33, 1 18–124. 6. Minman Tong#, Weichen Zhu#, Jian Li, Zhouyang Long, Shuang Zhao, Guojian Chen*, Youshi Lan*, An easy way to identify high performing c ovalent organic frameworks for hydrogen storage, Chemical Communication, 2020, 56, 6376-6379. 7. Tongan Yan, Youshi Lan, Minman Tong*, and Chongli Zhong*. Screening and Design of Covalent Organic Framework Membranes for CO2/C H4 Separation. ACS Sustainable Chemistry & Engineering, 2019, 7, 1220-1227. 8. Minman Tong*, Yadong Zhang, Tongan Yan, Guojian Chen*, Zhouyang Long*, Zhenglong Qin, Qingyuan Yang, Chongli Zhong. Computation al Insights on the Role of Nanochannel Environment in the CO2/CH4 and H2/CH4 Separation Using Restacked Covalent Organic Framework Membranes. The Journal of Physical Chemistry C, 2019, 123, 22949-22958. 9. Minman Tong*, Youshi Lan, Zhenglong Qin*, and Chongli Zhong. Computation-Ready, Experimental Covalent Organic Framework for Metha ne Delivery: Screening and Material Design. The Journal of Physical Chemistry C, 2018, 122, 13009-13016. 10. Minman Tong, Youshi Lan, Qingyuan Yang* and Chongli Zhong. High-Throughput Computational Screening and Design of Nanoporous Mat erials for Methane Storage and Carbon Dioxide Capture. Green Energy & Environment 2018, 3, 107-119. 11. 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. 12. Yunpan Ying, Minman Tong, Shoucong Ning, Sai Kishore Ravi, Shing Bo Peh, Swee Ching Tan, Stephen John Pennycook, and Dan Zhao*, Ultr athin Two-Dimensional Membranes Assembled by Ionic Covalent Organic Nanosheets with Reduced Apertures for Gas Separation, J. Am. Ch em. Soc., 2020, 142, 4472−4480. 13. Youdong Cheng, Linzhi Zhai, Minman Tong, Tanay Kundu, Guoliang Liu, Yunpan Ying, Jinqiao Dong, Yuxiang Wang, and Dan Zhao*, Selectiv e Gas Permeation in Mixed Matrix Membranes Accelerated by Hollow Ionic Covalent Organic Polymers, ACS Sustainable Chem. Eng., 2019, 7, 1564−1573. 14. Yadong Zhang, Ke Zhang, Lei Wu, Ke Liu, Rui Huang, Zhouyang Long, Minman Tong* and Guojian Chen*, Facile synthesis of crystalline violog en-based porous ionic polymers with hydrogen-bonded water for efficient catalytic CO2 fixation under ambient conditions, RSC Advances, 2 020, 10, 3606-3614. |