一、 基本信息
男,副教授/硕士生导师,电子邮箱:duzidedu@163.com
二、学习及工作经历
2010—至今,核技术与化学生物学院.
2005-2010年,四川大学,原子核科学技术研究所 硕博连读 核技术及应用专业.
三、主要研究方向
1. 核技术应用
2. 电子束辐照材料改性制备环境功能材料.
3. 辐射防护材料的制备.
四、指导学生课题及获奖:
2014年,湖北省大学生创新创业项目:聚乳酸膜的辐射接枝改性研究.
2020年,湖北省大学生创新创业项目:生物质纤维的电子束辐射改性及其在印染废水处理中的应用.
2013年,加速器辐照装置小车束下剂量的测量设计 获湖北省本科优秀毕业论文.
2015年,辐射接枝制备聚乙烯基吸硼材料 获湖北省本科优秀毕业论文.
2016年,2-氨甲基吡啶树脂的制备及对Cr(VI)的吸附性能研究 获湖北省本科优秀毕业论文.
2019年,纤维素生物质的辐射改性及其阴离子吸附 获湖北省本科优秀毕业论文.
2020年,季铵盐型纤维素凝胶材料的合成及其吸附性能的研究 获湖北省本科优秀毕业论文.
2021年,“我‘核’你一起看辐照加工” 获全国高校学生课外“核+X”大赛国家级三等奖
2022年,“惨无蚊道”获湖北省高校学生课外“核+X”大赛一等奖
五、 科研教研项目与成果
1. “碳-碳化物涂层的实验研究”获2008年四川省科技进步奖励三等奖。
2. “地方院校核工程与核技术专业应用型人才校企协同培养的研究与实践”获2018年湖北省高等学校教学成果奖二等奖。
3. 2020年,湖北省自然科学基金“多氨基修饰竹纤维的电子束辐射改性及其对磷的协同吸附行为研究。
4. 2021年,湖北省教育厅百校联百县项目“废竹屑改性水处理材料”。
六、申请专利
1. 一种低温辐照装置.
2.高性能多糖水凝胶吸附材料的辐射合成方法及其应用.
3. 2-氨甲基吡啶功能化的树脂在分离和去毒化电镀废水中六价铬离子方面的应用.
七、 发表科研论文:
1. Single and competitive adsorption between Indigo Carmine and Methyl orange dyes on quaternized kapok fiber adsorbent prepared by radiation technique Separation and Purification Technology 292 (2022). (中科院1区/IF:7.312)
2. Facile fabrication of tannic acid functionalized microcrystalline cellulose for selective recovery of Ga(III) and In(III) from potential leaching solution Separation and Purification Technology 286 (2022)(中科院1区/IF:7.312)
3. Fabrication of quaternized sisal fiber by electron beam radiation and its adsorption of indigo carmine from aqueous solution. Cellulose (2022)(中科院2区/IF:5.044)
4. Selective recovery of rhenium from the simulating leaching solutions of uranium ore by amino guanidine functionalized microcrystalline cellulose microsphere. Journal of Molecular Liquids 360 (2022)(中科院2区/IF:6.125)
5. Facile Fabrication of Quaternary Ammonium Salt Modified Cotton Linter by Radiation Grafting and its Effective Removal of Methyl Orange: Batch and Dynamic Flow Mode Studies. Fibers and Polymers. 2022.(中科院4区/IF: 2.153)
6. Recovery and separation of Mo(VI) and Re(VII) from Mo-Re bearing solution by gallic acid-modified cellulose microspheres Separation and Purification Technology 281 (2022). (中科院1区/IF:7.312)
7. Highly photocatalytic electrospun Zr/Ag Co-doped titanium dioxide nanofibers for degradation of dye. Journal of Colloid and Interface Science. 2021.(中科院1区/IF:8.128)
8. A comparative study of immobilizing ammonium molybdophosphate onto cellulose microsphere by radiation post-grafting and hybrid grafting for cesium removal. Environmental Pollution (2021)(中科院1区/IF:8.071)
9. Facile fabrication of polymeric quaternary ammonium salt hydrogel by radiation for dyes removal from aqueous solution. Radiation Physics and Chemistry. 2021.(中科院3区/IF: 2.858)
10. Selective adsorption of mercury(II) ions from aqueous solution by two kinds of modified cellulose microsphere. Desalination and Water treatment. 2021. (中科院4区/IF: 1.254)
11. Ethylenediamine and Pentaethylene Hexamine Modified Bamboo Sawdust by Radiation Grafting and their Adsorption Behavior for Phosphate. Applied Science. 2021. (中科院3区/IF: 2.679)
12. Ultrahigh Adsorption Capacity of Acrylic Acid-Grafted Xanthan Gum Hydrogels for Rhodamine B from Aqueous Solution. Journal of Chemical and Engineering Data 2021. (中科院分区3区/IF: 2.694)
13. Radiation grafting of dimethylaminoethyl methacrylate on cotton linter and subsequent quaternization as new eco-friendly adsorbent for phosphate removal. Environmental Science and Pollution Research 2020.(中科院分区3区/IF:3.14)
14. Facile preparation of L-cysteine–modified cellulose microspheres as a low-cost adsorbent for selective and efficient adsorption of Au(III) from the aqueous solution. Environmental Science and Pollution Research (2020).(中科院分区3区/IF:3.14)
15. Fabrication of Cotton Linter-Based Adsorbents by Radiation Grafting Polymerization for Humic Acid Removal from Aqueous Solution. Polymers. 2019.(中科院2区/IF:3.25)
16. Radiation Synthesis of Pentaethylene Hexamine Functionalized Cotton Linter for Eective Removal of Phosphate: Batch and Dynamic Flow Mode Studies. Materials 2019. (中科院2区/IF:2.972).
17. Facile Fabrication of N-Methyl-D-Glucamine Grafted HDPE Particle as Adsorbent for Boron Removal from Aqueous Solution. Materials Science Forum 2019(EI收录).
18. Radiation synthesis and heavy metal ions removal of cellulose microsphere based adsorbent. IOP Conf. Series: Earth and Environmental Science 2019。(EI收录).
