硕士研究生导师刘国成简介

    2020-04-16 17:27:32 来源:bat365官网          浏览数:0

  基本情况:刘国成,男,
       博士研究生,副教授。

  联系电话:0532-58957571

  邮箱:lg@qau.edu.cn

  18563939539

  研究方向:污染物环境行为及控制技术

  碳质材料功能化制备与应用

  固体废弃物处置与资源化利用

  学习工作经历:

  2003.9至2007.7,山东轻工业学院,轻化与环境工程学院,学士

  2007.9至2010.6,兰州交通大学,环境与市政工程学院,硕士

  2010.9至2014.6,中国海洋大学,环境科学与工程学院,博士

  2014.6至2017.6,中国海洋大学,环境科学与工程学院,博士后

  2017.7至2018.9,中国海洋大学,近海环境污染控制研究所,讲师

  2018.10至今,青岛农业大学,bat365官网,副教授

  教学授课情况:

  《科技论文写作》、《环境监测实验》、《农业环境监测实验》、《环境法学》

  科学研究:

  主要从事有机污染物环境界面行为及环境功能材料等方面的科学研究和教育工作。主持参加国家自然科学基金、山东省自然科学基金和山东省高等学校科技计划项目等课题10多项,在《Environmental Science and Technology》、《Journal of Cleaner Production》和《Science of The Total Environment》等国内外期刊发表学术论文30余篇,其中SCI收录24篇,EI收录8篇,中文核心期刊2篇。

  科研成果:

  科研项目

  1、青岛农业大学高层次人才科研基金项目,不同粒径生物炭对水体抗生素环境行为的影响,2019-06至2022-06,50万元,主持。

  2、山东省自然科学基金,面上项目,土壤中生物炭的自然老化及对有机农药环境行为的影响研究,2021-01至2023-12,10万元,主持。

  3、国家自然科学基金委员会, 青年科学基金项目, 新型有机污染物在生物炭-根-土界面的环境行为研究,2016-01至2018-12,22万元,主持。

  4、山东省海洋生态环境与防灾减灾重点实验室开放基金项目,山东省近海沉积物重金属污染的原位修复技术研究,2016至2017,4万元,主持。

  5、青岛市博士后应用研究项目,氨基功能化生物炭对水体中磷的吸附及应用,2015至2016,5万元,主持。

  6、国家自然科学基金,面上项目,可见光光催化协同光芬顿功能LGC@AFeO2/BC可控构筑及去除高风险抗生素效能与机制,2021-01至2024-12,59万元,主要参与人。

  7、国家自然科学基金委员会,青年科学基金项目,海洋生物质类生物炭对近海典型抗生素环境行为的影响及作用机制,2015-01至2017-12,26万元, 主要参与人。

  8、山东省自然科学基金委员会, 面上项目, 生物炭介导下的农田土壤抗生素抗性基因的污染特征及环境行为研究, 2019-07至2022-06, 20万元, 主要参与人。

  发表论文

  1、Liu, G.*, Pan, X., Ma, X., Xin, S. and Xin, Y. 2020. Effects of feedstock and inherent mineral components on oxidation resistance of biochars. Sci Total Environ 726, 138672;

  2、Ma, X., Xin, Y., Yan, Q., Pan, X., Xin, S., Huang, X., Chen, Q. and Liu, G.* 2020. Adsorption Characteristics of Tetracycline onto Biochars as Affected by Solution Chemistry Conditions and Ball Milling Treatment. Water, Air, & Soil Pollution 231(8);

  3、Ma, X., Chen, Q., Liu, G., Zhou, Y., Ma, D., Xin, S., Yu, C., Zhang, B. and Xin, Y. 2020. Construction of netlike 3D Z-scheme photoelectrodes with improved photocatalytic performance based on g-C3N4 nanosheets modified TiO2 nanobelt-tubes. Chemical Engineering Science 226;

  4、Xin, S., Shen, J., Liu, G., Chen, Q., Xiao, Z., Zhang, G. and Xin, Y. 2020. High electricity generation and COD removal from cattle wastewater in microbial fuel cells with 3D air cathode employed non-precious Cu2O/reduced graphene oxide as cathode catalyst. Energy 196;

  5、Xin, S., Shen, J., Liu, G., Chen, Q., Xiao, Z., Zhang, G. and Xin, Y. 2020. Electricity generation and microbial community of single-chamber microbial fuel cells in response to Cu2O nanoparticles/reduced graphene oxide as cathode catalyst. Chemical Engineering Journal 380;

  6、Zhang, B., Ma, X., Ma, J., Zhou, Y., Liu, G., Ma, D., Deng, Z., Luo, M. and Xin, Y. 2020. Fabrication of rGO and g-C3N4 co-modified TiO2 nanotube arrays photoelectrodes with enhanced photocatalytic performance. J Colloid Interface Sci 577, 75-85;

  7、Zhang, B., He, X., Ma, X., Chen, Q., Liu, G., Zhou, Y., Ma, D., Cui, C., Ma, J. and Xin, Y. 2020. In situ synthesis of ultrafine TiO2 nanoparticles modified g-C3N4 heterojunction photocatalyst with enhanced photocatalytic activity. Separation and Purification Technology 247;

  8、Xin, S., Liu, G., Ma, X., Gong, J., Ma, B., Yan, Q., Chen, Q., Ma, D., Zhang, G., Gao, M. and Xin, Y. 2021. High efficiency heterogeneous Fenton-like catalyst biochar modified CuFeO2 for the degradation of tetracycline: Economical synthesis, catalytic performance and mechanism. Applied Catalysis B: Environmental 280, 119386;

  9、Xin, S., Ma, B., Liu, G., Ma, X., Zhang, C., Ma, X., Gao, M. and Xin, Y. 2021. Enhanced heterogeneous photo-Fenton-like degradation of tetracycline over CuFeO2/biochar catalyst through accelerating electron transfer under visible light. Journal of Environmental Management 285, 112093. SCI二区;

  10、Hao Zheng, Qian Zhang, Guocheng Liu*, Xianxiang Luo, Fengmin Li, Yipeng Zhang, ZhenyuWang*. 2019. Characteristics and mechanisms of chlorpyrifos and chlorpyrifos-methyl adsorption onto biochars: Influence of deashing and low molecular weight organic acid (LMWOA) aging and co-existence. Science of The Total Environment, 657: 953-962.

  11、Guocheng Liu, Hao Zheng, Zhenyu Wang*, Jian Zhao, Bo Pan, Baoshan Xing*. 2018. Formation and physicochemical characteristics of nano biochar: Insight into chemical and colloidal stability. Environmental Science and Technology, 52: 10369-10379.

  12、Guocheng Liu, Hao Zheng*, Xiaowei Zhai, Zhenyu Wang*. 2018. Characteristics and mechanisms of microcystin-LR adsorption by giant reed-derived biochars: Role of minerals, pores, and functional groups. Journal of Cleaner Production, 176: 463-473.

  13、Guocheng Liu, Hao Zheng, Zhixiang Jiang, Zhenyu Wang*. 2018. Effects of biochar input on the properties of soil nanoparticles and dispersion/sedimentation of natural mineral nanoparticles in aqueous phase. Science of The Total Environment, 634, 595–605.

  14、Guocheng Liu, Chen Lei, Zhixiang, Jiang, Hao Zheng*, Yanhui Dai, Xianxiang Luo, Zhenyu Wang*. 2017. Aging impacts of low molecular weight organic acids (LMWOAs) on furfural production residue-derived biochars: Porosity, functional properties, and inorganic minerals. Science of The Total Environment, 607-608: 1428-1436.

  发明专利

  1、刘国成, 辛言君, 肖洲, 马小涵, 崔春月. 一种光电极的制备方法. ZL110512261B;

  2、刘国成, 辛言君, 陈清华, 马东, 罗明明. 一种复合光电极的制备方法. ZL110528047B;

  3、刘国成, 辛言君, 周远明, 胡春光, 张新旺. 一种利用辣椒秸秆制备同时具有磁性和光催化性的生物炭的方法. ZL111185137A;

  4、辛言君, 张彬, 马东, 刘国成, 陈清华. 一种光电极的原位制备方法. ZL110512262B;

  5、辛言君, 刘国成, 朱祥伟, 陈清华, 邓智瀚. 一种光电极的制备方法. ZL110512263B;

  6、辛言君, 张彬, 王继芳, 陈清华, 刘国成. 一种复合光电极的制备方法. ZL110512260B;

  7、辛言君, 信帅帅, 王继芳, 刘国成, 王维华. 一种利用大蒜秸秆制取磁性生物炭的方法. CN111229162A;

  8、Liu, Guocheng; Xin, Yanjun; Yan, Qinghua; Ma, Dong and Chen, Qinghua. Method for Adsorbing Oxytetracycline with CuFeO2/BC Composite Magnetic Material. Australian, 2020103432, 国际发明专利;

  9、Liu, Guocheng; Xin, Yanjun; Xin, Shuaishuai; Chen, Qinghua and Ma, Dong. Method for Preparing Magnetic Biochar from Kitchen Garbage. Australian, 2020103433, 国际发明专利.

  获奖及社会兼职等情况:

  担任《Chemical Engineering Journal》《Journal of Cleaner Production》和《Science of The Total Environment》等SCI期刊评审专家。

  2020 年度长江水利委员会青年科学技术奖二等奖,基于生态调节坝工程治理三峡水库消落区的可行性研究与应用,位次5/5。