姓 名:王灿 | |
职 称:校聘副教授 | |
职 务:无 | |
所属系:环境工程系 | |
邮 箱:wangcan2419@163.com |
一、基本情况
王灿,男,博士毕业于合肥工业大学,2021-2023年受国家基金委高水平大学联合培养博士项目资助,于日本京都大学进行联合培养。
二、主要研究领域、方向
研究方向:大气污染控制工程、纳米矿物学、环境工程材料等
三、教科研项目
先后参与国家自然科学基金、省级自然科学基金等科研项目4项。
四、获奖、荣誉及专利情况
第一发明人授权发明专利一项
王灿,陈天虎,刘海波等。一种催化氧化室内甲醛的贴膜及其制备和应用方法。ZL 2018 10901482.6
五、10篇代表性论著
1.C. Wang,Z.Y. Han,X.H. Zou,H.B. Liu,T.H. Chen,S.L. Suib,et al. Ultrathin MnO2 coated FeOOH catalyst for in-door formaldehyde oxidation at ambient temperature:New insight of surface reactive oxygen species and in-field testing in an air cleaner, Environmental Science & Technology,56 (2022) 10963-10976.
2.C. Wang,T.H. Chen,H.B. Liu,X.H. Zou,S.L. Suib,etal.Promotional catalytic oxidation of airborne formaldehyde over mineral-supported MnO2 at ambient temperature,Applied Clay Science,182 (2019) 105289.
3.C. Wang, X.H. Zou,H.B. Liu,T.H. Chen,S.L. Suib,et al.A highly efficient catalyst of palygorskite-supported manganese oxide for formaldehyde oxidation at ambient and low temperature:Performance, mechanism and reaction kinetics,Applied Surface Science,486 (2019) 420-430.
4.C. Wang,T.H. Chen,C.S. Qing,X.H. Zou,et al.Synthesis of palygorskite-supported Mn1−xCexO2 clusters and their performance in catalytic oxidation of formaldehyde,Applied Clay Science,159 (2018) 50-59.
5.C. Wang,X.H. Zou,et al.Biodegradable microplastics (BMPs):a new cause for concern? Environmental Science and Pollution Research, 28 (2020) 1-8.
6. J.K. Zhu,C. Wang.Recent advances in the analysis methodologies for microplastics in aquatic organisms: current knowledge and research challenges, Analytical Methods, 12 (2020) 2944-2957.
7.J.K. Zhu,C. Wang.Biodegradable plastics: Green hope or greenwashing?, Marine Pollution Bulletin, 161(2020) 111774.
8.王灿,陈天虎,刘海波等.纳米矿物材料净化甲醛污染的研究进展,材料导报,08(2020) 15003-15012.
9.王灿,刘海波,谢晶晶,陈天虎等.响应面法优化凹凸棒石尾矿中蛋白石制备水玻璃工艺过程工程学报,17(2017) 382-388.
10.Z.Y. Han,C.Wang,X.H. Zou,T.H Chen,Y. Zhao,et al. Diatomite-supported birnessite-type MnO2 catalytic oxidation of formaldehyde: Preparation,performance and mechanism, Applied Surface Science,502 (2020) 14201-144211.