博士生导师&硕士生导师
何作利
职称:研究员
办公室:
邮箱:E-mail: zlhe@sdu.edu.cn
电话:
个人简介
研究方向
教育经历
科研项目
代表性论文
详细信息

何作利,研究员,博士生导师,2020年必赢线路检测3003no1“十佳书院导师”。入选山东省泰山学者青年专家、必赢线路检测3003no1未来青年学者等,同时担任教育部研究生教育评估监测专家、山东省科技专家库专家、山东省人才促进会会员、广东省科技专家库专家、中国感光学会-光催化专业委员会会员、中国化学会会员、Coatings编委、RareMetals与Acta Phys-chim Sin青年编委等学术职务。

通信地址:山东省青岛市即墨区滨海路72号 必赢线路检测3003no1(青岛校区)必赢线路检测3003no1

E-mail: zlhe@sdu.edu.cn

个人主页:http://faculty.sdu.edu.cn/hezuoli/zh_CN/index.htm

欢迎勤奋上进的博士后、博士、硕士、本科生加入课题组,开展科研工作。


1. 主要研究方向:

近年来围绕催化剂的设计与合成、水中有机污染物与抗生素去除、重金属离子去除与监测、复合纤维制备、柔性功能织物开发等方面开展了大量研究工作,为解决水中有机污染物去除与传感检测提供了理论和技术基础。迄今为止,在Small、Nano Energy、Appl. Catal. B、Chinese J. Catal.、Chem. Eng. J.、J. Mater. Sci. Technol.、Carbon、ACS Appl. Mater. Interfaces、Mater. Today Nano、Sep. Purif. Technol.、Compos. Sci. Technol.、Nanoscale、等著名期刊发表学术论文40余篇,论文被引2600余次,H指数26,参与项目获陕西省高校科技一等奖2项,授权中国发明专利4项,中国实用新型专利1项,韩国发明专利1项。

主要研究方向为功能复合材料(异质结催化剂与功能复合纤维)及其新能源开发和环境污染治理方面的应用(包含多技术协同去除有机污染物、污染物传感与监测技术、光解水产氢、含氮化合物间转换、光热催化合成等方面),涉及环境化学,材料化学,无机化学,光化学,有机化学,配位化学,电化学及能源化学多个领域。课题组设备齐全,可满足功能复合材料(高分散异质结催化剂,薄膜与纤维)的制备、光电化学测试、材料机械性能测试、水中有机污染物及无机离子的分析等。


2. 工作经历:

2019.06至今 必赢线路检测3003no1 必赢线路检测3003no1 研究员

2017.10 - 2019.06 韩国材料研究所 复合材料部 高级研究员

2015.08 - 2017.08 浦项工科大学 环境科学与工程部 博士后


3. 教育背景:

2011.09 - 2015.06 西安交通大学电信学部 电子科学与技术 工学博士

2013.11 - 2014.11 犹他大学理学院 超分子化学 联合培养博士

2008.09 - 2011.06 陕西科技大学材料学院 材料加工工程 工学硕士

2004.09 - 2008.07 山东轻工业学院材料学院 无机非金属材料工程 工学学士


4.入职必赢线路检测3003no1后主持的科研项目:

➢国家基金面上项目(202301 ~ 202612);

➢国家基金青年项目(202101 ~ 202312);

➢山东省青年泰山学者专项基金(202001 ~ 202412);

➢必赢线路检测3003no1青年交叉科学创新群体成员(202001 ~ 202312);

➢必赢线路检测3003no1未来青年学者基金(201908 ~ 202407);

➢江苏省自然科学青年基金项目(202007 ~ 202306)[已结题];


5.代表性研究成果:(ORCID:0000-0002-6175-2447)

[1]W. Chen, M. Dai, L. Xiang, S. Zhao, S. Wang,Z. He,*Assembling S-scheme heterojunction between basic bismuth nitrate and bismuth tungstate with promoting charges’ separation for accelerated photocatalytic sulfamethazine degradation,J.Mater. Sci. Technol., 171 (2024) 185-197.

[2]Z. Zheng, S. Tian, Y. Feng, S. Zhao, X. Li, S. Wang,Z. He,*Recent advances of photocatalytic coupling technologies for wastewater treatment,Chinese J. Catal., 54 (2023) 88-136.

[3]M. Dai, H. Yu, W. Chen, K.-A. Qu, D. Zhai, C. Liu, S. Zhao, S. Wang,Z. He,*Boosting photocatalytic activity of CdLa2S4/ZnIn2S4S-scheme heterojunctions with spatial separation of photoexcited carries,Chem. Eng. J., 470 (2023) 144240.

[4]M. Dai,Z. He,* W. Cao, J. Zhang, W. Chen, Q. Jin, W. Que, S. Wang,Rational construction of S-scheme BN/MXene/ZnIn2S4heterojunction with interface engineering for efficient photocatalytic hydrogen production and chlorophenols degradation,Sep.Purif. Technol., 309 (2023) 123004.

[5]W. Cao,Z. He,*M. Dai, G. Wang,*G. Huang, S. Wang,*Electronic structure modulation of bimetallic sulfides for efficient sacrificial-agent-free photocatalytic H2evolution,ACS Appl. Energy Mater., 6 (2023) 4715-4723.

[6]H. Liu,Z. He,S. Wang, S. Zhao,*CoZn-ZIF and melamine co-derived double carbon layer matrix supported highly dispersed and exposed Co nanoparticles for efficient degradation of sulfamethoxazole,Chem. Eng. J., 469 (2023) 144054.

[7]H. Liu,Z. He, J. Li, S. Zhao,*Well-dispersed cobalt nanoparticles encapsulated on ZIF-8-derived N-doped porous carbon as an excellent peroxymonosulfate activator for sulfamethoxazole degradation,Chem. Eng. J., 451 (2023) 138597.

[8]H. Yu, M. Dai, J. Zhang, W. Chen, Q. Jin, S. Wang,*Z. He,*Interface engineering in 2D/2D heterogeneous photocatalysts,Small, 19 (2023) 2205767.山大视点-学术纵横山大微博必赢线路检测3003no1(青岛)学术动态

[9]Z. He, G. Zhou,* Y. Oh, B. Jung, M. Um, S. Lee, J. Song,* J. Byun,* T. Chou,Ultrafast, highly sensitive, flexible textile-based humidity sensors made of nanocomposite filaments,Mater. Today Nano, 18 (2022) 100214.

[10]J. Zhang, M. Dai,* P. Zhang,* S. Wang,*Z. He,*Recent progress on carbon nanotube based materials for photocatalytic applications: A review,Solar RRL, 6 (2022)2200243.

[11]M. Dai,Z. He,* P. Zhang, X. Li,*S. Wang,*ZnWO4-ZnIn2S4S-schemeheterojunction for enhanced photocatalytic H2evolution,J. Mater. Sci. Technol., 122 (2022) 231-242.

[12]H. Yu, S. Xu, S. Zhang, S. Wang,Z. He,*In-situ construction of core–shell structured TiB2-TiO2@g-C3N4for efficient photocatalytic degradation,Appl. Surf. Sci., 579 (2022) 152201.

[13]J. Zhang, X. Li, J. Guo, G.H. Zhou, L. Xiang, S.G. Wang,Z. He,*Novel TiO2/TPU composite fiber-based smart textiles for photocatalytic applications,Mater. Adv., (2022) 1518-1526.

[14]S. Fang, M. Dai, R. Chen,Z. He,*G. Zhang,*Y. Ding,Diaza-substitution on dibenzothiophene sulfone-based linear conjugated polymers for highly efficient visible-light photo-catalytic hydrogen evolution via substituted-position optimization,Dyes Pigm., 206 (2022) 110645.

[15]W. Zhao, D. Zhai, C. Liu,*D. Zheng, H. Wu, L. Sun, Z. Li, T. Yu, W. Zhou, X. Fang, S. Zhai, K. Han,Z. He, W. Deng,Unblocked intramolecular charge transfer for enhanced CO2photoreduction enabled by an imidazolium-based ionic conjugated microporous polymer,Appl. Catal. B: Environ., 300 (2022) 120719.

[16]S. Zhang,Z. He,*S. Xu, X. Li, J. Zhang, X. Zhan,*M. Dai,*S. Wang,*In situ liquid-phase growth strategies of g-C3N4solar-driven heterogeneous catalysts for environmental applications,Solar RRL, 5 (2021) 2100233.

[17]L. Xiao, X. Li, J. Zhang,Z. He,*MgB4MXene-like nanosheets for photocatalytic hydrogen evolution,ACS Appl. Nano Mater., 4 (2021) 12779-12787.

[18]S. Zhang,Z. He,*G. Zhou, B. Jung,*T. Kim,*B. Park, J. Byun, T. Chou,High conductive free-written thermoplastic polyurethane composite fibers utilized as weight-strain sensors,Compos. Sci. Technol., 2020, 189, 108011.

[19]Z He,* J. Zhang, X. Li, S. Guan, M. Dai,* S. Wang,*1D/2D heterostructured photocatalysts: From design and unique properties to their environmental applications,Small, 16 (2020) 2005051.

[20]Z. He,G. Zhou,* J. Byun,* S. Lee,* M. Um,B. Park,T. Kim,S. Lee,T. Chou,Highly stretchable multi-walled carbon nanotube/thermoplastic polyurethane composite fibers for ultrasensitive,wearable strain sensors,Nanoscale,2019,11,5884-5890.

[21]Z. He,J. Byun,* G. Zhou,B. Park,T. Kim,S. Lee,* J. Yi,M. Um,T. Chou,Effect of MWCNT content on mechanical and strain-sensing performance of thermoplastic polyurethane composite fibers,Carbon,2019,146,701-708

[22]Z. He,C. Kim,T. Jeon,W. Choi,*Hydrogenated heterojunction of boron nitride and titania enables the photocatalytic generation of H2in the absence of noble metal catalysts,Appl. Catal. B: Environ., 2018,237,772-782

[23]Z. He,C. Kim,L. Lin,T. Jeon,S. Lin,X. Wang,* W. Choi,*Formation of heterostructures via direct growth CN on h-BN porous nanosheets for metal-free photocatalysis,Nano Energy,2017,42,58-68

[24]Z. He,*M. Li, W. Que,*P.J. Stang,*Self-assembly of metal-ion-responsive supramolecular coordination complexes and their photophysical properties,Dalton Trans., 2017, 46, 3120-3124.

[25]Z. He, W. Que,*Molybdenum disulfide nanomaterials: Structures, properties, synthesis and recent progress on hydrogen evolution reaction,Appl. Mater. Today, 2016, 3, 23-56.

[26]Z. He, W. Que,*P. Sun, J. Ren,Double-layer electrode based on TiO2nanotubes arrays for enhancing photovoltaic properties in dye-sensitized solar cells,ACS Appl. Mater. Interfaces, 2013, 5, 12779-12783.

[27]Z. He, W. Que,*Surface scattering and reflecting: the effect on light absorption or photocatalytic activity of TiO2scattering microspheres,Phys Chem Chem Phys, 2013, 15, 16768-16773.

[28]Z. He, W. Que,*H. Xie, C. Jing, Y. Yuan, S. Peng,Facile synthesis of self-sensitized TiO2photocatalysts and their higher photocatalytic activity,J. Am. Ceram. Soc., 2012, 95, 3941-3946.

[29]Z. He, W. Que,*J. Chen, X. Yin, Y. He, J. Ren,Photocatalytic degradation of methyl orange over nitrogen-fluorine codoped TiO2nanobelts prepared by solvothermal synthesis,ACS Appl. Mater. Interfaces, 2012, 4, 6816-6826.

[30]Z. He,*Z. Zhu, J. Li, J. Zhou, N. Wei,Characterization and activity of mesoporous titanium dioxide beads with high surface areas and controllable pore sizes,J. Hazard. Mater., 2011, 190, 133-139.