崔俊硕,博士,副教授,2019年1月毕业于复旦大学材料科学系。主要研究方向为石墨烯分散剂的设计与合成、纳米碳导电复合材料的制备与应用、多孔吸附分离薄膜材料的设计与制备。在advanced functional materials, chemistry of materials, journal of materials chemistry c 等学术期刊发表过研究论文。2019年受到国家自然科学基金青年项目资助。2019年被评为硕士生导师,招生专业无机化学、材料与化工。
教育及工作经历:
2007.09—2011.07,辽宁大学,应用化学,学士
2011.09—2014.06,大连理工大学,精细化工,硕士
2014.07—2015.06,华晨汽车工程研究院
2015.09—2019.01,复旦大学,材料物理与化学,博士
2019.03—2022.02,辽宁大学,化学院,讲师
2022.03— 今, 辽宁大学,化学院,副教授
项目基金:
1. 基于硅羟基高反应活性石墨烯分散剂的设计合成及其构效关系研究;国家自然科学基金委员会;青年项目;时间:2020.01—2022.12,主持。
2. 铼/碳纳米复合材料制备及高效电催化析氢性能研究;辽宁省教育厅;青年科技人才“育苗”项目;时间:2020.09—2022.09,主持。
3. 功能碳材料基础研究与产业化应用;辽宁大学;35岁以下中青年教师专项;时间:2020.10—2022.10,主持。
4. 青年教师成长与拔尖学生培养协同发展研究;辽宁大学;2020年度辽宁大学本科教学改革项目;时间:2020.11—2021.11,主持。
代表性论文:
(8) song xinlun, chen hui, gong liwen, cui junshuo*, xiong ying et al. synthesis of novel diol modified chitosan and their enhanced selective adsorption behavior for germanium(ⅳ). journal of environmental chemical engineering, 2022, 1: 107082.
(7) cui junshuo, li wenkang, wang yuejiao, xiong ying* et al. ultra‐stable phase change coatings by self‐cross‐linkable reactive poly (ethylene glycol) and mwcnts. advanced functional materials, 2021: 2108000.
(6) cui junshuo, li wenkang, song xinlun, xiong ying* et al. microwave-assisted one-pot rapid synthesis of mesoporous silica-chitosan composites for efficient recovery of rhenium (ⅶ). separation and purification technology, 2021, 277: 119497.
(5) cui junshuo, zhou shuxue*. highly conductive and ultra-durable electronic textiles via covalent immobilization of carbon nanomaterials on cotton fabric. journal of materials chemistry c, 2018, 6: 12273-12282.
(4) cui junshuo, zhou shuxue*. high-concentration self-cross-linkable graphene dispersion. chemistry of materials, 2018, 30: 4935-4942.
(3) cui junshuo, zhou shuxue*. facile fabrication of highly conductive polystyrene/nanocarbon composites with robust interconnected network via electrostatic attraction strategy. journal of materials chemistry c, 2018, 6: 550-557.
(2) cui junshuo, zhou shuxue*. polyamine-functionalized perylene bisimide for dispersion of graphene in water with high effectiveness and little impact on electrical conductivity.journal of nanoparticle research, 2017, 19: 357.
(1) tang bingtao*, cui junshuo, wang yunming, et al. facile synthesis and performances of peg/sio2 composite form-stable phase change materials. solar energy, 2013, 97: 484-492.