姓名:张记市
出生于1971年08月,博士,教授,山东省优秀研究生导师;主要研究方向:水污染控制、厌氧发酵、废物高值利用和环境微生物。
邮箱:jszhang2020@qlu.edu.cn; lyzhangjishi@163.com
个人履历
2007年6月毕业于昆明理工大学环境工程专业获工学博士;
2007年9月入bwin必赢唯一官方网站任教;
2009年12月晋升副教授;
2014年12月晋升教授。
教学科研
先后承担仪器分析、环境影响评价、清洁生产、固体废物处理与处置、环境污染与食品安全、环境工程原理、文献检索与环境科技论文写作、轻工行业清洁生产及污染控制技术、工业废物资源化、高等固体废物管理和环境学科前沿课程等本科生和研究生的理论教学任务;承担本科生毕业实习、毕业设计、专业(综合)实验等实践教学任务。曾荣获校级优秀本科毕业设计(论文)指导教师(7次)、山东省优秀学士学位论文指导教师,校级优秀硕士学位论文指导教师(2次)、山东省优秀硕士学位论文指导教师,“挑战杯”全国大学生竞赛山东省优秀指导教师(3次),第五届全国大学生市政环境类创新实践能力大赛优秀指导教师,指导本科学生荣获“挑战杯”全国大学生竞赛山东省一等奖和国家二等奖、第五届全国大学生市政环境类创新实践能力大赛华北赛区化验赛二等奖和虚拟仿真赛三等奖,指导8名研究生荣获国家奖学金、1名研究生荣获山东省高等学校优秀学生、1名研究生荣获山东省优秀毕业生、2名研究生荣获校级优秀毕业生,5名研究生荣获校级优秀成果奖,山东省研究生高端化工与功能材料创新实践大赛一等奖指导教师,校级教学成果二等奖和“百优”学业导师。
从事有机废水厌氧发酵理论与技术、生物基废物制备炭材料、多元纳米复合材料的构筑与环境治理应用、环境影响评价、清洁生产审核以及废水污染治理技术等科研工作。主持或参与国家省部级项目7项、市级课题6项和企事业委托课题12项;授权国家发明专利12项;发表科研论文60余篇,以第一或通讯作者发表SCI论文50余篇(其中22篇为中国科学院SCI一区论文);以第一作者荣获山东省高等学校优秀科研成果奖二等奖,国际埃尼奖 2016年度环境保护提名奖,bwin必赢唯一官方网站第一届青年卓越学者,山东省优秀研究生导师。
社会服务
教育部学位与研究生教育发展中心学位论文评审专家、山东省环境影响评价和危险废物评审专家库专家、山东省科技专家库专家、山东省高等学校创新创业教育导师、山东省环境科学学会理事、国际性学术期刊Fermentation (中科院二区)编委https://www.mdpi.com/journal/fermentation/editors.
研究生毕业去向
考取双一流(学科)大学(如中国科学院大学、同济大学、山东大学、中国海洋大学、天津科技大学等)的博士;硕士毕业就职于国企和学校等单位。
代表性论文(*通讯作者)
[1] Ruixi Wang, Huiwen Zhang, Junchu Zhang, Chen Zhou, Xiaoying Zhang, Xiao Yan, Fei Yu, Jishi Zhang*. Comparison of calcium magnesium ferrite nanoparticles for boosting biohydrogen production. Bioresource Technology 2024, 395:130410.
[2] Kexin Tian, Jishi Zhang*, Chen Zhou, Hui Liu, Yong Pei, Xiaoying Zhang, Xiao Yan. Revealing the roles of carbonized humic acid in biohydrogen production. Bioresource Technology 2023, 386:129506.
[3] Chen Zhou, Jishi Zhang*, Yong Pei, Kexin Tian, Xiaoying Zhang, Xiao Yan, Junwei Yang. Molten salt strategy to activate biochar for enhancing biohydrogen production. Bioresource Technology 2023, 385:129466.
[4] Yong Pei, Jishi Zhang*, Chen Zhou, Kexin Tian, Xiaoying Zhang, Xiao Yan. Hydrothermal carbon microspheres and their iron salt modification for enhancing biohydrogen production. Bioresource Technology 2023, 385:129371.
[5] Junwei Yang, Huiwen Zhang, Jishi Zhang*, Chen Zhou, Yun Zhang, Lihua Zang. Understanding the effect of carbamazepine on the recovery of methane from lactic acid wastewater by anaerobic digestion. Journal of Cleaner Production 2023, 383(2):135420.
[6] Junwei Yang, Huiwen Zhang, Kexin Tian, Yun Zhang, Jishi Zhang*. Novel lanthanum-iron oxide nanoparticles alleviate the inhibition of anaerobic digestion by carbamazepine through adsorption and bioaugmentation. Journal of Environmental Management 2023, 340:117975 (15 August 2023).
[7] Kexin Tian, Jishi Zhang, Chen Zhou, Mengchen Yang, Xiaoying Zhang, Xiao Yan. Magnetic nitrogen doped activated carbon improved biohydrogen production. Environmental Science and Pollution Research 2023, 30(43):87215–87227.
[8] Junchu Zhang, Huiwen Zhang, Jishi Zhang*, Chen Zhou, Yong Pei, Lihua Zang. Improved biohydrogen evolution through calcium ferrite nanoparticles assisted dark fermentation. Bioresource Technology 2022, 361:127676.
[9] Junwei Yang, Huiwen Zhang, Hui Liu, Jishi Zhang*, Yong Pei, Lihua Zang. Unraveling the roles of lanthanum-iron oxide nanoparticles in biohydrogen production. Bioresource Technology 2022, 351:127027.
[10] Wenqing Li, Jishi Zhang*, Junwei Yang, Junchu Zhang, Zhenmin Li, Yunjun Yang, Lihua Zang. Comparison of copper and aluminum doped cobalt ferrate nanoparticles for improving biohydrogen production. Bioresource Technology 2022, 343:126078.
[11] Huiwen Zhang, Wenqing Li, Chen Zhou, Jishi Zhang*, Yong Pei, Lihua Zang. Comparison of cobalt ferrate-based nanoparticles for promoting biomethane evolution from lactic acid anaerobic digestion. Bioresource Technology 2022, 347: 126689.
[12] Chen Zhou, Huiwen Zhang, Jishi Zhang*, Junwei Yang, Mengchen Yang, Lihua Zang, Qinzheng Yang. Nitrogen-phosphorus doped starch carbon enhanced biohydrogen production. International Journal of Hydrogen Energy 2022, 47(66): 28372−28384.
[13] Zhenmin Li, Jiangmei Wang, Kexin Tian, Chen Zhou,Yong Pei, Jishi Zhang*, Lihua Zang. Nickel–Cobalt oxide nanoparticle-induced biohydrogen production. ACS Omega 2022, 7(45): 41594-41605.
[14] Junwei Yang, Junjie Zhang*, Junchu Zhang, Jishi Zhang*, Yunjun Yang*, Lihua Zang. Roles of calcium-containing alkali materials on dark fermentation and anaerobic digestion: A systematic review. International Journal of Hydrogen Energy 2021, 46(78): 38645−38662.
[15] Jishi Zhang*, Wenqing Li, Junwei Yang, Zhenmin Li, Junchu Zhang, Wenqian Zhao, Lihua Zang. Cobalt ferrate nanoparticles improved dark fermentation for hydrogen evolution. Journal of Cleaner Production 2021, 316:128275.
[16] Jishi Zhang*, Wenqian Zhao, Junwei Yang, Zhenmin Li, Junchu Zhang, Lihua Zang. Comparison of mesophilic and thermophilic dark fermentation with nickel ferrite nanoparticles supplementation for biohydrogen production. Bioresource Technology 2021, 329:124853.
[17] Junwei Yang, Jishi Zhang*, Zhenmin Li, Junchu Zhang, Lei Zhao, Lihua Zang. Calcium-doped carbon fabrication for improving bioH2 and bioCH4 production. International Journal of Hydrogen Energy 2021, 46(41):21348−21358.
[18] Jishi Zhang*, Mengchen Yang, Wenqian Zhao, Junchu Zhang, Lihua Zang. Biohydrogen production amended with nitrogen-doped biochar. Energy & Fuels 2021, 35, 2:1476–1487.
[19] Zhenmin Li, Jishi Zhang*, Chunduo Kong, Wenqing Li, Jinwei Wang, Lihua Zang. Methane production from wheat straw pretreated with CaO2 /cellulase. RSC Advances 2021,11:20541.
[20] Jishi Zhang*, Yashan Zhang, Wenqian Zhao, Zhenmin Li, Lihua Zang. Facile fabrication of calcium-doped carbon for efficient phosphorus adsorption. ACS Omega 2021, 6, 1:327–339.
[21] Jishi Zhang*, Wenqian Zhao, Chuanfang Fan, Wenqing Li, Lihua Zang. Advanced bioH2 and bioCH4 production with cobalt-doped magnetic carbon. RSC Advances 2020, 10:41791.
[22] Wenqian Zhao, Jishi Zhang*, Huiwen Zhang, Mengchen Yang, Lihua Zang. Comparison of mesophilic and thermophilic biohydrogen production amended by nickel-doped magnetic carbon. Journal of Cleaner Production 2020, 270:122730.
[23] Jishi Zhang*, Chunduo Kong, Mengchen Yang, Lihua Zang. Comparison of calcium oxide and calcium peroxide pretreatments of wheat straw for improving biohydrogen production. ACS Omega 2020, 5:9151−9161.
[24] Jishi Zhang*, Chuanfang Fan, Wenqian Zhao, Lihua Zang. Improving bio-H2 production by manganese doped magnetic carbon. International Journal of Hydrogen Energy 2019, 44(49):26920−26932.
[25] Jishi Zhang*, Lei Zhao, Fei Yu, Lihua Zang. Comparison of sodium lignosulfonate and derived biochar for influencing methane bioevolution. Energy & Fuels 2019, 33(9):8812−8820.
[26] Lei Zhao, Jishi Zhang*, Wenqian Zhao, Lihua Zang. Improved fermentative hydrogen production with the addition of calcium-lignosulfonate-derived biochar. Energy & Fuels 2019, 33(8):7406−7414.
[27] Fan, Chuanfang, Zhang, Jishi*, Zang, Lihua. Improving biohydrogen evolution from glucose with magnetic activated carbon. Water Air & Soil Pollution 2019, 230(5):110−114.
[28] Jishi Zhang*, Wenqian Zhao, Huiwen Zhang, Zejie Wang, Lihua Zang. Recent achievements in enhancing anaerobic digestion with carbon-based functional materials. Bioresource Technology 2018, 266:555−567.
[29] Jishi Zhang*, Chuanfang Fan, Huiwen Zhang, Zejie Wang, Junjie Zhang, Mingming Song. Ferric oxide/carbon nanoparticles enhanced bio-hydrogen production from glucose. International Journal of Hydrogen Energy 2018, 43(18):8729−8738.
[30] Jishi Zhang*, Chen Yao, Chuanfang Fan. Enhancement of solubility and biohydrogen production from sewage sludge with lime mud filtrate. Water Air & Soil Pollution 2018, 229:129−136.
[31] Jishi Zhang*, Chen Yao, Pengwei Zheng, Lihua Zang. Synergistic effects of anaerobic digestion from sewage sludge with lime mud. International Journal of Hydrogen Energy 2017, 42(16):12022−12031.
[32] Jishi Zhang*, Shujun Chen, Huiwei Zhang, Xikui Wang. Removal behaviors and mchanism of hexavalent chromim from aqueous solution by cephalosporin residue and derived chars. Bioresource Technology 2017, 238:484−491.
[33] Shujun Chen, Jishi Zhang*, Huiwen Zhang, Xikui Wang. Removal of hexavalent chromium from contaminated water by Chinese herb-extraction residues. Water Air & Soil Pollution 2017, 228(4):145−158.
[34] Jishi Zhang*, Chuanfang Fan, Lihua Zang. Improvement of hydrogen production from glucose by ferrous iron and biochar. Bioresource Technology 2017, 245:98−105.
[35] Jishi Zhang*, Lihua Zang. Enhancement of biohydrogen production from brewers' spent grain by calcined-red mud pretreatment. Bioresource Technology 2016, 209:73−79.
[36] Jishi Zhang*, Qinqing Wang. Sustainable mechanisms of biochar derived from brewers’ spent grain and sewage sludge for ammonia-nitrogen capture. Journal of Cleaner Production 2016, 112: 3927−3934.
[37] Jishi Zhang*, Junjie Zhang, Lihua Zang. Thermophilic bio-hydrogen production from corn-bran residue pretreated by calcined-lime mud from papermaking process. Bioresource Technology 2015, 198:564−570.
[38] Jishi Zhang*, Shujun Chen, Xikui Wang. Sustainable treatment of antibiotic wastewater using combined process of micro-electrolysis and struvite crystallization. Water Air & Soil Pollution 2015, 226(9):315−326.
[39] Jishi Zhang*, Pengwei Zheng, Qinqing Wang. Lime mud from papermaking process as a potential ameliorant for pollutants at ambient conditions: a review. Journal of Cleaner Production 2015, 103:828−836.
[40] Jishi Zhang*, Pengwei Zheng. A preliminary investigation of the mechanism of hexavalent chromium removal by corn-bran residue and derived chars. RSC Advances 2015, 5(23):17768−17774.
[41] Shujun Chen, Jishi Zhang*, Xikui Wang. Effects of alkalinity sources on the stability of anaerobic digestion from food waste. Waste Management & Research 2015, 33(11): 1033−1040.
[42] Jishi Zhang*, Qinqing Wang, Pengwei Zheng, Yusong Wang. Anaerobic digestion of food waste stabilized by lime mud from papermaking process. Bioresource Technology 2014, 170:270− 277.
[43] Jishi Zhang*, Qinqing Wang, Jianguo Jiang. Lime mud from paper-making process addition to food waste synergistically enhances hydrogen fermentation performance. International Journal of Hydrogen Energy 2013, 38(6):2738−2745.
[44] Jishi Zhang*, Qinqing Wang. Buffering and nutrient effects of white mud from ammonia–soda process on thermophilic hydrogen fermentation from food waste. International Journal of Hydrogen Energy 2013, 38(31):13564−13571.
[45] Mingyuan Zhang, Yunqian Ma, Dandan Ji, Xueyuan Li, Jishi Zhang, Lihua Zhang*. Synergetic promotion of direct interspecies electron transfer for syntrophic metabolism of propionate and butyrate with graphite felt in anaerobic digestion. Bioresource Technology 2019, 287:121373.
[46] Haoe Mo, Na Wang, Zhongmin Ma, Jishi Zhang, Jinlong Zhang, Lu Wang, Weifang Dong,* Lihua Zang*. Hydroxyapatite fabrication for enhancing biohydrogen production from glucose dark fermentation. ACS Omega 2022, 7(12):10550–10558.