个人基本信息:
姓名:王洪龙
性别:男
出生年月:1988
学历:博士后
职称:副教授,硕士生导师
联系方式:wanghonglong915@163.com
学习工作情况:
2008.9-2012.6兰州大学,应用化学,本科,学士
2012.9-2017.6中国科学院大学,无机化学,研究生,理学博士
2017.9-2019.9中国工程物理研究院,博士后,助理研究员
2019.10-至今,太阳成集团的官方网站,讲师
中国核学会中国化学会会员
主讲课程:
(1)现代纺织表征技术、
(2)纺织化学、
(3)纺织品后整理
研究领域:
高分子、无机材料改性,功能纤维及织物设计,环保新材料,清洁能源新技术
代表性项目:
(1)国家自然科学基金青年基金,“2:1”堆积层状硅酸盐晶体的长时低剂量率β射线辐射损伤机制及迟滞能力提升策略研究,30万元,2024.1-2026.12,在研
(2)太阳成集团的官方网站校基金,“2:1”堆积层状硅酸盐晶体的长时低剂量率β射线辐射损伤机制及迟滞能力提升策略研究,2万元,2023.6-2023.12,在研
(3)中广核集团合作项目,辐照改性全淀粉生物降解塑料应用开发,30万元,2021.9-2022.12,在研
(4)太阳成集团的官方网站博士科研启动金,若干聚合物改性研究,5万元,2020.1-2023.12,结题
(5)中国博士后科学基金面上项目二等资助,基于放射性废物深地质处置的粘土晶体辐射效应研究(2018M633634XB),5万元,2018.5-2019.9,结题
主要代表作:
[1]Wang, Honglong*., Yang, Chenguang., Wang, Xiaoguang., Li, Jiayan., Su, Xiaoya., Fang, Ke., Li, Jintang., Jiang, Linxu. An intensive exploration of the microstructural transformation undergone of phlogopite single-crystal film under electron beam (EB) irradiation at 0–1000 kGy: The influence of lattice stability on H-atom mobility. Ceramics International. 2023. 49(9), 14445–14458.
[2]Fang, Ke., Zhang, Wenxin.,Wang, Honglong*.,Wang, Xiaoguang.,Xia, Faming.,Su, Xiaoya.,Li, Jiayan. A synthesis of double modified: Irradiated and oxidized corn starch and its microstructural and physicochemical properties. Materials Today Communications. 2023. 35, 106343.
[3]Wang, Honglong*., Sun Zhiguo., Xia, Faming., Yang Chenguang., Wang Xiaoguang., Li Jintang., Jiang Linxu. An exploration of lattice transformation mechanism of muscovite single crystal under EB irradiation at 0–1000 kGy. Journal of the American Ceramics Society. 2023. DOI:10.1111/jace.19453.
[4]Huang,Xiaojun., Li, Jiayan.,Su, Xiaoya., Fang, Ke., Wang, Zhishuang., Liu, Lin., Wang, Honglong*.,Yang,Chenguang., Wang, Xiaoguang. Amazing damage in talc aroused by electron beam irradiation with dose up to 1000 kGy: lattice shrink in Z and Y-axis and corresponding intrinsic micro-structure transformation procedure speculation. RSC Advances. 2021.11.21870-21884.
[5]Wang, Honlong*.; Sun, Yapin.; Chu, Jian.; Wang, Xu.; Zhang, Ming. Crystalline structure variation within phlogopite, muscovite and talc crystals under high doseγray irradiation: A clear dependence on intrinsic characterization. Applied Clay Science. 2020, 187, 105475(1-12).