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卢晓辉

时间: 2022-11-23 点击次数:


一、基本信息

姓名:卢晓辉

性别:男

最高学位:工学博士

职称:特聘副教授

主要研究方向:水污染控制中氧化化学;电化学消毒技术

电子邮箱:lxh1993@sicau.edu.cn

二、学习及工作经历

2011.09—2015.06,四川大学,给排水科学与工程,工学学士

2015.09—2018.06,西南交通大学,市政工程,工学硕士

2018.09—2022.09,哈尔滨工业大学,市政工程,工学博士

2021.07—2022.07,新加坡国立大学,环境工程,联合培养博士

2022.11—至今,  永利3885网站(中国)有限公司,环境工程专业任教

三、主要成果

(一)代表性论文、著作及教材

[1] Lu, X.; Zhao, J.; Wang, Q*.; Wang, D.; Xu, H.; Ma, J*.; Qiu, W.; Hu, T., Sonolytic degradation of bisphenol S: Effect of dissolved oxygen and peroxydisulfate, oxidation products and acute toxicity. Water research 2019, 165, 114969. (SCI一区,IF=13.4)

[2] Lu, X.; Qiu, W*.; Ma, J.; Xu, H.; Wang, D.; Cheng, H.; Zhang, W.; He, X*., The overestimated role of singlet oxygen for pollutants degradation in some non-photochemical systems. Chemical Engineering Journal 2020, 401, 126128. (SCI一区,IF=16.744)

[3] Lu, X.; Qiu, W*.; Peng, J.; Xu, H.; Wang, D.; Cao, Y.; Zhang, W.; Ma, J*., A Review on Additives-assisted Ultrasound for Organic Pollutants Degradation. Journal of hazardous materials 2020, 123915. (SCI一区,IF=14.224)

[4] Lu, X.; Zhou, X.; Qiu, W.; Wang, Z.; Cheng, H.; Zhang, H.; Yu, J.; Wang, D.; Ma, J. Singlet oxygen involved electrochemical disinfection by anodic oxidation of H2O2 in the presence of Cl. Chemical Engineering Journal 2022, 446, 136871. (SCI一区,IF=16.744)

[5] Lu, X.; Zhou, X.; Qiu, W.; Wang, Z.; Wang, Y.; Zhang, H.; Yu, J.; Wang, D.; Gu, J.; Ma, J. Kinetics and mechanism of the reaction of hydrogen peroxide with hypochlorous acid: Implication on electrochemical water treatment. Journal of hazardous materials 2022, 438, 129420. (SCI一区,IF=14.224)

(6) Wang, Q*.; Cao, Y.; Zeng, H.; Liang, Y.; Ma, J.; Lu, X*., Ultrasound-enhanced zero-valent copper activation of persulfate for the degradation of bisphenol AF. Chemical Engineering Journal 2019, 378, 122143. (SCI二区,IF=16.744)

[7] Wang, Q*.; Lu, X.; Cao, Y.; Ma, J.; Jiang, J.; Bai, X.; Hu, T., Degradation of Bisphenol S by heat activated persulfate: Kinetics study, transformation pathways and influences of co-existing chemicals. Chemical Engineering Journal 2017, 328, 236-245. (SCI一区,IF= IF=16.744)

[8] Xu, H.; Wang, D.; Ma, J.; Zhang, T.; Lu, X.; Chen, Z. A superior active and stable spinel sulfide for catalytic peroxymonosulfate oxidation of bisphenol S. Applied Catalysis B: Environmental 2018, 238, 557-567. (SCI一区,IF=24.319)

[9] Peng, J.; Lu, X.; Jiang, X.; Zhang, Y.; Chen, Q.; Lai, B.; Yao, G., Degradation of atrazine by persulfate activation with copper sulfide (CuS): Kinetics study, degradation pathways and mechanism. Chemical Engineering Journal 2018, 354, 740-752. (SCI一区,IF=16.744)

[10] Wang, D.; Xu, H.; Ma, J.; Lu, X.; Qi, J.; Song, S. Strong promoted catalytic ozonation of atrazine at low temperature using tourmaline as catalyst: Influencing factors, reaction mechanisms and pathways. Chemical Engineering Journal 2018, 354, 113-125. (SCI一区,IF=16.744)

[11] Zhao, J.; Liu, Y.; Wang, Q.; Fu, Y.; Lu, X.; Bai, X. The self-catalysis of ferrate (VI) by its reactive byproducts or reductive substances for the degradation of diclofenac: Kinetics, mechanism and transformation products. Separation and Purification Technology 2018, 192, 412-418. (SCI二区,IF=9.136)

[12] Wang, D.; Xu, H.; Ma, J.; Giannakis, S.; Lu, X.; Chi, H.; Song, S.; Qi, J. Enhanced mineralization of atrazine by surface induced hydroxyl radicals over light-weight granular mixed-quartz sands with ozone. Water research 2019, 149, 136-148. (SCI一区,IF=13.4)

[13] Wang, Q.; Yang, Z.; Chai, B.; Cheng, S.; Lu, X.; Bai, X. Heterogeneous catalytic ozonation of natural organic matter with goethite, cerium oxide and magnesium oxide. RSC Advances 2016, 6, 14730-14740. (SCI三区,IF=4.036)

[14] Wang, H.; Deng, J.; Lu, X.; Wan, L.; Huang, J.; Liu, Y. Rapid and continuous degradation of diclofenac by Fe(II)-activated persulfate combined with bisulfite. Separation and Purification Technology 2021, 262, 118335. (SCI二区,IF=9.136)

[15] Yu, J.; Qiu, W.; Xu, H.; Lu, X.; Ma, J.; Lu, D. Highly-efficient and stable MgCo2O4 spinel for bisphenol a removal by activating peroxymonosulfate via radical and non-radical pathways. Chemical Engineering Journal 2021, 421, 129498. (SCI一区,IF=16.744)

[16] Wang, D.; Xu, H.; Ma, J.; Lu, X.; Qi, J.; Song, S. Morphology Control Studies of MnTiO3 Nanostructures with Exposed {0001} Facets as a High-Performance Catalyst for Water Purification. ACS applied materials & interfaces 2018, 10, 31631-31640. (SCI二区,IF=10.383)

[17] Wang, D.; He, Y.; Zhong, N.; He, Z.; Shen, Y.; Zeng, T.; Lu, X.; Ma, J.; Song, S. In situ chloride-mediated synthesis of TiO2 thin film photoanode with enhanced photoelectrochemical activity for carbamazepine oxidation coupled with simultaneous cathodic H2 production and CO2 conversion to fuels. Journal of hazardous materials 2021, 410, 124563. (SCI一区,IF=14.224)

[18] Zhang, H.-C.; Liu, Y.-L.; Wang, L.; Li, Z.-Y.; Lu, X.-H.; Yang, T.; Ma, J. Enhanced Radical Generation in an Ultraviolet/Chlorine System through the Addition of TiO2. Environmental science & technology 2021, 55, 11612-11623. (SCI一区,IF=11.357)

[19] Cheng, H.; Yang, T.; Jiang, J.; Lu, X.; Wang, P.; Ma, J. Mn2+ effect on manganese oxides (MnOx) nanoparticles aggregation in solution: Chemical adsorption and cation bridging. Environmental Pollution 2020, 267, 115561. (SCI二区,IF=9.988)

[20] Wang, Z.; Qi, J.; Lu, X.; Jiang, H.; Wang, P.; He, M.; Ma, J. Epitaxially grown MOF membranes with photocatalytic bactericidal activity for biofouling mitigation in desalination. Journal of Membrane Science 2021, 630, 119327. (SCI一区,IF=10.530)

[21] Wang, D.; Xu, J.; Zhu, Y.; Wen, L.; Ye, J.; Shen, Y.; Zeng, T.; Lu, X.; Ma, J.; Wang, L.; Song, S. HKUST-1-derived highly ordered Cu nanosheets with enriched edge sites, stepped (211) surfaces and (200) facets for effective electrochemical CO2 reduction. Chemosphere 2021, 278, 130408. (SCI二区,IF=8.943)

[22] Zhang, H.; Li, Z.; Zhou, X.; Lu, X.; Gu, H.; Ma, J. Insight into the performance of UV/chlorine/TiO2 on carbamazepine degradation: The crucial role of chlorine oxide radical (ClO(*)).Science of the total environment 2022, 853, 158345. (SCI二区,IF=10.753)

[23] Wang, D.; Zhu, Y.; Yu, W.; He, Z.; Dong, F.; Shen, Y.; Zeng, T.; Lu, X.; Ma, J.; Wang, L.; Song, S. Ag-MOF-derived 3D Ag dendrites used for the efficient electrocatalytic reduction of CO2 to CO. Electrochimica Acta 2022, 403, 139652. (SCI二区,IF=7.336)

[24] Wang, D.; Dong, S.; Hu, H.; He, Z.; Dong, F.; Tang, J.; Lu, X.; Wang, L.; Song, S.; Ma, J. Catalytic ozonation of atrazine with stable boron-doped graphene nanoparticles derived from waste polyvinyl alcohol film: Performance and mechanism. Chemical Engineering Journal 2022, 140316. (SCI一区,IF=16.744)

[25] 汪达,杨喆,卢晓辉,王立章,宋爽,马军. 催化臭氧净水过程中催化材料晶面的作用[J/OL]. 科学通报.

(二)发明专利

[1] 马军卢晓辉邱微汪达徐浩丹,基于单线态氧的电化学消毒方法(ZL 2021 1 0693443.3

[2] 马军;汪达;徐浩丹;卢晓辉,一种还原氧化石墨烯包覆钛酸铁复合催化材料及其制备方法和应用 CN108404914,发明专利,2019.08.23

[3] 马军;汪达;徐浩丹;卢晓辉,一种六边形钛酸铁纳米片材料的合成方法及应用 CN108298591,发明专利,2019.12.10

[4] 马军;汪达;徐浩丹;卢晓辉,一种低温臭氧催化氧化去除微污染物的催化剂及其制备方法和应用 CN108435219,发明专利,2018.08.24

[5] 马军;汪达;徐浩丹;卢晓辉,一种钛酸锰纳米片材料的制备方法及应用 CN108423713,发明专利,2018.08.21

[6] 马军;汪达;徐浩丹;卢晓辉,一种轻质颗粒状臭氧催化氧化材料、其制备办法及利用该材料催化氧化的反应装置 CN108568294,发明专利,2018.09.25

(三)科研项目

[1] 公司人才引进项目,主持

[2] 村镇饮用水品质提升关键技术与装备,科技部国家重点研发计划子课题,主研

[3] 铜铁矿活性晶面的调控及其催化过硫酸盐去除水中有机物的研究,国家自然科学基金面上项目,参与

[4] 功能纳米催化材料设计与除污染技术,科技部国家重点研发计划子课题,参与

[5] 热激活过二硫酸盐降解高温废水中典型有机物及其不同温度下的转化规律研究,国家重点实验室开放基金,主研

[6] 基于资源回收及药物降解的尿液源分离分散式污水处理系统,国家自然科学基金国际合作与交流项目,参与

(四)获奖

哈尔滨工业大学优秀毕业生,2022

博士研究生国家奖学金,2020

西南交通大学优秀硕士学位论文,2018

西南交通大学优秀毕业生,2018

硕士研究生国家奖学金,2017

四川大学优秀毕业生,2015



 

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