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周海峰

周 海 峰 1987年生,博士、副教授、硕士生导师

办公地址:S4实验楼-401

电子邮箱:zhou_hf@sdust.edu.cn

联系电话:13687685178

个人简介

以生物质资源的高效利用和环境保护为目标,主要从事木质纤维素化学和生物法转化理论、工艺及装备技术的研发工作;以工业木质素为原料,充分利用木质素特殊空间三维结构、丰富的活性官能团等功能,构建木质素高分子材料,实现其在混凝土、高分子材料等领域的应用,形成了鲜明的研究特色。近年来主持国家自然科学基金项目、山东省重点研发计划、山东省自然科学基金、青岛市创新源头计划等项目5项。申请授权发明专利10余项,在国内外期刊发表学术论文50余篇。担任FuelInternational Journal of Biological Macromolecules等多个国际学术期刊审稿人。近年来以首位或主要完成人获山东省高等学校科学技术奖二等奖、山东省循环经济协会科学技术奖二等奖、中国技术市场协会金桥奖等科技奖励6项。

个人经历

l 工作经历:

2019/02-至今,山东科技大学,化工学院/低碳能源化工实验室,副教授

2014/11-2019/02,山东科技大学低碳能源化工实验室第四层次人才引进,享受四级教授待遇

l 教育经历:

2012/09-2014/09,美国威斯康星大学麦迪逊分校/美国农业部林产品实验室,化学工程与技术专业,联合培养博士

2009/09-2014/07,华南理工大学,化学工程,硕士/博士

2005/09-2009/07,广西大学,林产化工,学士

招生专业

招生专业:(硕士)化学工程与技术、材料与化工等

荣誉及奖励

1. 山东省优秀硕士论文指导教师,2022

2. 山东科技大学优青,2018

3. “生物质快速热解液体高值化综合利用与关键装备技术”获山东省高等学校科学技术奖二等奖,2017年,第1

4. “农林废弃物快速热解液化及产品大宗高值化利用技术与装备”获山东省循环经济协会科学技术奖二等奖,2019年,第2

5.“农林废弃物大规模资源化高效综合利用关键技术”获中国技术市场协会金桥奖,2015年,第5

6.“生物质分级热解气化多联产成套技术及关键装备”获中国石油和化学工业联合会科技进步一等奖,2019,第9

发表论文

[1]. Y. Tian, H. Zhang, S. Pan, Y. Yin, Z. Jia, H. Zhou*, Amine-functionalized magnetic microspheres from lignosulfonate for industrial wastewater purification, International Journal of Biological Macromolecules 224 (2023) 133-142. SCI一区

[2]. Y. Sun, W. Wu, H. Zhou*, Lignosulfonate-controlled BiOBr/C hollow microsphere photocatalyst for efficient removal of tetracycline and Cr(VI) under visible light, Chemical Engineering Journal 453 (2023) 139819. SCI一区

[3]. Y. Sun, C. Lu, Y. Yin, H. Zhou, P. Liang, Improved visible-light photocatalytic degradation of pollutants under the synergistic effect of BiOI/BiFeWO6 p-n heterojunction and oxygen vacancies, Applied Surface Science 631 (2023) 157588.SCI一区

[4]. W. Wu, Y. Sun, H. Zhou*, In-situ construction of β-Bi2O3/Ag2O photocatalyst from deactivated AgBiO3 for tetracycline degradation under visible light, Chemical Engineering Journal 432 (2022) 134316. SCI一区

[5]. Y. Tian, H. Zhou*, A novel nitrogen-doped porous carbon derived from black liquor for efficient removal of Cr(VI) and tetracycline: Comparison with lignin porous carbon, Journal of Cleaner Production 333 (2022) 130106. SCI一区

[6]. Y. Zhao, H. Zhang, P. Zong, H. Zhou*, Y. Tian, Evaluation of pyrolysis characteristics and product distribution of black liquor using Py-GC/MS and down tube reactor: Comparison with lignin, Fuel 292 (2021) 120286. SCI一区

[7]. Y. Zhao, Y. Tian, H. Zhou*, Y. Tian, Hydrothermal conversion of black liquor to phenolics and hydrochar: Characterization, application and comparison with lignin, Fuel 280 (2020) 118651. SCI一区

[8]. W. Wu, H. Zhou*, One-pot preparation of NaBiO3/PNMA composite: Surface properties and photocatalytic performance, Applied Surface Science 544 (2021) 148910. SCI一区

[9]. W. Wu, C. Lu, M. Yuan, Y. Tian, H. Zhou*, Acidification of potassium bismuthate for enhanced visible-light photocatalytic degradation ability: An effective strategy for regulating the abilities of adsorption, oxidation, and photocatalysis, Applied Surface Science 544 (2021) 148873. SCI一区

[10]. Y. Liang, W. Duan, X. An, Y. Qiao, Y. Tian, H. Zhou*, Novel betaine-amino acid based natural deep eutectic solvents for enhancing the enzymatic hydrolysis of corncob, Bioresource Technology 310 (2020) 123389. SCI一区

[11]. H. Zhou, X. Qiu, D. Yang, S. Xie, Laccase and Xylanase Incubation Enhanced the Sulfomethylation Reactivity of Alkali Lignin, ACS Sustainable Chemistry & Engineering 4 (2016) 1248-1254. SCI一区

[12]. H. Zhou, Y. Chang, X. Wu, D. Yang, X. Qiu, Horseradish Peroxidase Modification of Sulfomethylated Wheat Straw Alkali Lignin To Improve Its Dispersion Performance, ACS Sustainable Chemistry & Engineering 3 (2015) 518-523. SCI一区

[13]. Y. Zhao, C. Lu, F. Yu, H. Zhou*, Investigation of black liquor-derived carbon for removal of Cr(VI): Comparison with lignin-derived carbon, Colloids and Surfaces A: Physicochemical and Engineering Aspects 642 (2022) 128730. SCI二区

[14]. H. Zhang, Y. Tian, Y. Niu, X. Dong, H. Lou, H. Zhou*, Lignosulfonate/N-butylaniline hollow microspheres for the removal of Cr(VI): Fabrication, adsorption isotherm and kinetics, Journal of Water Process Engineering 46 (2022) 102588. SCI二区

[15]. Y. Tian, Y. Yin, H. Liu, H. Zhou*, One-step hydrothermal carbonization of amine modified black liquor and lignin for efficient Cr(VI) adsorption, Journal of Water Process Engineering 46 (2022) 102583. SCI二区

[16]. C. Lu, H. Zhou*, The Ag-based SPR effect drives effective degradation of organic pollutants by BiOCOOH/AgBr composites, Advanced Powder Technology 33 (2022) 103428. SCI二区

[17]. H. Zhou*, X. Shi, W. Wu, X. An, Y. Tian, Y. Qiao, Facile preparation of lignosulfonate/N-methylaniline composite and its application in efficient removal of Cr(VI) from aqueous solutions, International Journal of Biological Macromolecules 154 (2020) 1194-1204. SCI二区

[18]. H. Zhou*, R. Gleisner, J.Y. Zhu, Y. Tian, Y. Qiao, SPORL Pretreatment Spent Liquors Enhance the Enzymatic Hydrolysis of Cellulose and Ethanol Production from Glucose, Energy & Fuels 32 (2018) 7636-7642. SCI二区

[19]. Z. Haifeng, G. Roland, Z. J.Y., T. Yuanyu, Q. Yingyun, SPORL Pretreatment Spent Liquors Enhance the Enzymatic Hydrolysis of Cellulose and Ethanol Production from Glucose, Energy & Fuels (2018) acs.energyfuels.8b00864-. SCI二区

[20]. W. Wu, C. Xu, X. Shi, J. Zhao, X. An, H. Ma, Y. Tian, H. Zhou*, Effective degradation of organic pollutants and reaction mechanism with flower-like AgBiO3/g-C3N4 composite, Colloids and Surfaces A: Physicochemical and Engineering Aspects 599 (2020) 124901. SCI二区

[21]. X. Shi, Y. Qiao, X. An, Y. Tian, H. Zhou*, High-capacity adsorption of Cr(VI) by lignin-based composite: Characterization, performance and mechanism, International Journal of Biological Macromolecules 159 (2020) 839-849. SCI二区

[22]. H. Zhou, F. St. John, J.Y. Zhu, Xylanase pretreatment of wood fibers for producing cellulose nanofibrils: a comparison of different enzyme preparations, Cellulose 26 (2019) 543-555. SCI二区

[23]. H. Zhou, S.-Y. Leu, X. Wu, J. Zhu, R. Gleisner, D. Yang, X. Qiu, E. Horn, Comparisons of high titer ethanol production and lignosulfonate properties by SPORL pretreatment of lodgepole pine at two temperatures, RSC Advances 4 (2014) 27030-27038. SCI二区

[24]. H. Zhou, J.Y. Zhu, X. Luo, S.-Y. Leu, X. Wu, R. Gleisner, B.S. Dien, R.E. Hector, D. Yang, X. Qiu, Bioconversion of Beetle-Killed Lodgepole Pine Using SPORL: Process Scale-up Design, Lignin Coproduct, and High Solids Fermentation without Detoxification, Industrial & Engineering Chemistry Research 52 (2013) 16057-16065. SCI二区

[25]. H. Zhou, J. Zhu, X. Luo, S.-Y. Leu, X. Wu, R. Gleisner, B.S. Dien, R.E. Hector, D. Yang, X. Qiu, Bioconversion of Beetle-Killed Lodgepole Pine Using SPORL: Process Scale-up Design, Lignin Coproduct, and High Solids Fermentation without Detoxification, Industrial & Engineering Chemistry Research 52 (2013) 16057-16065. SCI二区

[26]. H. Zhou, D. Yang, X. Qiu, X. Wu, Y. Li, A novel and efficient polymerization of lignosulfonates by horseradish peroxidase/H2O2 incubation, Applied microbiology and biotechnology 97 (2013) 10309-10320. SCI二区

[27]. H. Zhou, H. Lou, D. Yang, J. Zhu, X. Qiu, Lignosulfonate to enhance enzymatic saccharification of lignocelluloses: role of molecular weight and substrate lignin, Industrial & Engineering Chemistry Research 52 (2013) 8464-8470. SCI二区

[28]. H. Lou, H. Zhou, X. Li, M. Wang, J. Zhu, X. Qiu, Understanding the effects of lignosulfonate on enzymatic saccharification of pure cellulose, Cellulose 21 (2014) 1351-1359. SCI二区

[29]. J. Zhang1, H. Zhou1, D. Liu, X. Zhao, Chapter 2 - Pretreatment of lignocellulosic biomass for efficient enzymatic saccharification of cellulose, in: A. Yousuf, D. Pirozzi, F. Sannino (Eds.) Lignocellulosic Biomass to Liquid Biofuels, Academic Press2020, pp. 17-65.

[30]. X. Shi, B. Zhao, H. Zhou*, Y. Tian, Y. Qiao, B. Ji, Direct Saccharification and Fermentation for High Glucose and Ethanol Production from Non-Detoxified Furfural Residue Without Any Pretreatment, ChemistrySelect 4 (2019) 7844-7850.

[31]. C. Lu, Y. Yin, H. Zhou*, Construction of oxygen vacancy enriched Bi2MoO6/BiFeWO6 heterojunction for efficient degradation of organic pollutants, Journal of Solid State Chemistry 312 (2022) 123210.

[32]. C. Lu, W. Wu, H. Zhou*, In situ fabrication of BiOBr/BiFeWO6 heterojunction with excellent photodegradation activity under visible light, Journal of Solid State Chemistry 303 (2021) 122465.

[33]. Y. Tian, H. Zhou*, Y. Qiao, R. Tang, G. Zhao, G. Leng, In-situ reduction of Cu(CH3COO)2 to prepare π-complexation adsorbent for propylene/propane separation by slurry bed, Separation Science and Technology 52 (2017) 1959-1966.

[34]. H. Zhou, J.Y. Zhu, R. Gleisner, X. Qiu, E. Horn, J. Negron, Pilot-scale demonstration of SPORL for bioconversion of lodgepole pine to bioethanol and lignosulfonate, Holzforschung 70 (2016) 21-30.

[35]. H. Zhou, J. Zhu, R. Gleisner, X. Qiu, E. Horn, J. Negron, Pilot-scale demonstration of SPORL for bioconversion of lodgepole pine to bioethanol and lignosulfonate, Holzforschung 70 (2016) 21-30.

[36]. H. Zhou, D. Yang, J.Y. Zhu, Molecular Structure of Sodium Lignosulfonate from Different Sources and their Properties as Dispersant of TiO2 Slurry, Journal of Dispersion Science & Technology 37 (2016) 296-303.

[37]. H. Zhou, J. Zhu, R. Gleisner, X. Qiu, E. Horn, High titer ethanol and lignosulfonate production from SPORL pretreated poplar at pilot scale, Frontiers in Energy Research 3 (2015) 1-9.

[38]. H. Zhang, H. Zhou*, Industrial lignins: the potential for efficient removal of Cr(VI) from wastewater, Environmental Science and Pollution Research 29 (2022) 10467-10481.

[39]. D. Yang, H. Zhou, S. Xie, X. Wu, X. Qiu, Sulfomethylation reactivity of alkali lignin with laccase modification, Acta Polymerica Sinica 2 (2013) 232-240.

[40]. 杨东杰, 周海峰, 谢绍朐, 伍晓蕾, 邱学青, 漆酶活化碱木质素的磺甲基化反应活性研究, 高分子学报 (2013) 232-240.

[41]. H. Zhou, D. Yang, X. Wu, Y. Deng, X. Qiu, Physicochemical properties of sodium lignosulfonates (NaLS) modified by laccase, Holzforschung 66: (2012) 825-832.

[42]. 周海峰, 杨东杰, 伍晓蕾, 邱学青, 漆酶改性木质素磺酸钠的结构表征及吸附特征, 高等学校化学学报 34 (2012) 218-224.

讲授课程

Chemical Engineering Design and Drawing》、《化工原理》



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