专利与奖励 (1) 慈立杰, 任小花, 郭焕焕. 一种硫氮共掺杂石墨烯基气凝胶及其制备方法[P], CN108439372B, 2020-09-25. (发明专利) (2) 慈立杰, 任小花, 侯广梅, 马晓欣. 一种双亲性Janus结构石墨烯基气凝胶及其制备方法[P], CN108439373B, 2019-12-27. (发明专利) (3) 国伟林,任梦,刘洋,郭怀苏,张梦杰,任小花. 一种基于液液相分离的聚合物Janus微马达制备方法[P], CN110327987A, 2019-10-15. (发明专利) (4) 慈立杰, 任小花. 一种吸附-催化氧化协同降解苯酚的催化剂及其制备方法与应用, CN107262032A, 2017-10-20. (发明专利) (5) 2022年荣获亚洲必赢测试路线第十届“青年教学能手”称号。 (6) 2021年荣获亚洲必赢测试路线优秀共产党员和优秀班主任称号。 |
代表性科研论文 [1] 刘瑞龙, 任小花*, 国伟林. 铁基纤维素微球的制备及其活化过硫酸盐降解盐酸四环素. 环境工程, 2022, https://kns.cnki.net/kcms/detail//11.2097.X.20221228.1553.001.html. [2] Ren Xiaohua, Liu Yang, Guo Weilin*. Morphology and crystal facet-dependent activation mechanism of persulfate by V2O5 nanomaterials for organic pollutants degradation. Separation and Purification Technology, 2020, 253:117501. [3] Ren Xiaohua*, Liu Ruilong, Zhang Shanshan, Zhang Jinying. The theoretical investigation of OH-induced degradation mechanisms of isoproturon. Journal of Molecular Modeling, 2020, 26(9): 232. [4] Henghua Zhu, Xiaohua Ren*, et al.. Influences of natural and anthropogenic processes on the groundwater quality in Dagujia River Basin in Yantai, China, Journal of Water Supply: Research and Technology – AQUA, 2020, 69.2:184-196. [5] Xiaohua Ren*, Huanhuan Guo, Lijie Ci*, et al.. Improved Interfacial Floatability of Superhydrophobic and Compressive S, N co-doped Graphene Aerogel by Electrostatic Spraying for Highly Efficient Organic Pollutants Recovery from Water, Applied Surface Science, 2018, 457:780-788. [6] Xiaohua Ren*, Jinkui Feng, Pengchao Si, Lin Zhang, Jun Lou, Lijie Ci*. Enhanced heterogeneous activation mechanism of peroxydisulfate by S, N co-doped graphene via controlling S, N functionalization for the oxidation decolorization of dyes in water, Chemosphere, 2018, 210:120-128. [7] Xiaohua Ren, Huanhuan Guo, Jinkui Feng, Pengchao Si, Lin Zhang, Lijie Ci*. Synergic mechanism of adsorption and metal-free catalysis for phenol degradation by N-doped graphene aerogel. Chemosphere, 2018, 191:389-399. [8] Yang Min, Ren Xiaohua, Hu Leixin, Guo Weilin*, Zhan Jinhua. Facet-controlled activation of persulfate by goethite for tetracycline degradation in aqueous solution. Chemical Engineering Journal, 2021, 412:128628. [9] Zhang Shouwei, Ren Xiaohua, Zhou Xizhong, Gao Huihui, Wang Xiao, Huang Jinzhao, Xu Xijin*. Hierarchical multi-active component yolk-shell nanoreactors as highly active peroxymonosulfate activator for ciprofloxacin degradation. Journal of Colloid and Interface Science, 2022, 605:766-778. [10] Hu Leixin, Ren Xiaohua, Yang Min, Guo Weilin*. Facet-controlled activation of persulfate by magnetite nanoparticles for the degradation of tetracycline. Separation and Purification Technology, 2021, 258:118014. [11] Li Deping, Dai Linna, Ren Xiaohua, Ji Fengjun, Sun Qing, Zhang Yamin, Ci Lijie*. Foldable potassium-ion batteries enabled by free-standing and flexible SnS2@C nanofibers. Energy & Environmental Science, 2021, 14:424-436. [12] Yang Min, Ren Xiaohua, Hu Leixin, Zhou Haihong, Guo Weilin*. Insights into the facet-dependent adsorption of antibiotic ciprofloxacin on goethite. Environmental Science and Pollution Research, 2020, 28(9):11486-11497. [13] Henghua Zhu, Xiaohua Ren*, Zhizheng Liu. A new four-step hierarchy method for combined assessment of groundwater quality and pollution. Environmental Monitoring and Assessment, 2018, 190:50-62. [14] Xiaohua Ren*, Zhaojie Cui, Youmin Sun, Theoretical studies on degradation mechanism for OH-initiated reactions with diuron in water system, Journal of Molecular Modeling, 2014,20(1):2280-2291. [15] Xiaohua Ren, Youmin Sun, Zhenfeng Wu, Fanli Meng, Zhaojie Cui*, The OH-induced degradation mechanism of 4-chloro-2-methylphenoxyacetic acid (MCPA) with two forms in the water: A DFT comparison, Chemosphere, 2012,88(1):39-48. [16] Xiaohua Ren, Youmin Sun, Xiaowen Fu, Li Zhu, Zhaojie Cui*, DFT Comparison of the OH-initiated Degradation Mechanisms for Five Chlorophenoxy Herbicides, Journal of Molecular Modeling, 2013,19(6): 2249-2263. [17] Xiaohua Ren, Youmin Sun, Li Zhu, Zhaojie Cui*, Theoretical studies on the OH-initiated photodegradation mechanism of dicofol, Computational and Theoretical Chemistry, 2011,963(1):365-370. |