刘海霞  教授


出生年月:19839

    历:博士研究生

 籍    贯:山东威海        

 电子邮箱:liuhaixia929@163.com

工作单位:齐鲁工业大学beat365正版唯一官网

 山东省分子工程重点实验室(实验南楼五楼A502  

    话:18353108823  

 

教育背景

 

2002.9-2006.6   山东大学材料科学与工程学院本科

2006.9-2011.6   山东大学晶体材料国家重点实验室硕博连读导师:黄柏标教授

2011.6 至今    齐鲁工业大学  职称:教授

 

 

科研项目

Ø  主持 国家自然科学基金项目:高活性Ag2O半导体的制备及活性面/高指数面共催化的研究51402157

Ø  主持 山东省重点研发计划项目:表面等离子体增强TiO2/g-C3N4异质结制备及其光解水性能研究(2017GGX40121

Ø  主持 山东省自然科学基金面上项目:Z-g-C3N4 负载 Cu 单原子双活性位点催化剂在光催化还原CO2 的研究(ZR2020ME043

Ø  主持 青年博士校院合作基金项目:活性纳米晶体的制备及光电性能研究(2019BSHZ005

Ø  参与 国家国家自然科学基金项目:碱金属离子存在情况下制备高性能钛硅分子筛的研究(51602164

Ø  参与山东省中青年科学家科研奖励基金BS2012L027

Ø  参与 山东省高等学校科技计划J12LA02

Ø  山东省高校轻工精细化学品重点实验室建设项目

 

研究领域

现主要从事太阳能光分解水制氢、光催化降解和太阳能电池方面的研究工作,涉及新能源微纳米材料、半导体光催化材料、半导体发光材料等。

 

 

发表论文

l  Xinying Yang , Haixia Liu *, Tianduo Li , Baibiao Huang , Wei Hu ,Zaiyong Jiang , Jianbin Chen , Qingfen Niu  Preparation of flower-like ZnO@ZnS core-shell structure enhances photocatalytic hydrogen production international journal of hydrogen energy ,2020,45,26967−26978

l  Hai-xia Liu, Xu-guang Wei, Tian-duo Li, Zai-yong Jiang, Qing-fen Niu, Hu Wei,
Hai-liang Zhou, “Mosaic structure ZnO formed by secondary crystallization with enhancedphotocatalytic performance” International Journal of Minerals, Metallurgy and Materials 2020

l  Xuguang Wei, Haixia Liu,*, Tianduo Li, Zaiyong Jiang, Wei Hu, Qingfen Niu, Jianbin Chen “Three-dimensional flower heterojunction g-C3N4/Ag/ZnO composed of ultrathin nanosheets with enhanced photocatalytic performance”Journal of Photochemistry & Photobiology A: Chemistry 2020,390,112342

l  Dong Huang, Haixia Liu*, Tianduo Li, Baibiao Huang, et al. “High Specific Surface Area TiO2 Nanospheres for Hydrogen Production and Photocatalytic Activity”. Journal of Nanoscience and Nanotechnology, 2020, 20,1-8  

l  Yujie Liu, Dong Huang, Haixia Liu*, Tianduo Li, and Jingui Wang. “ZnO tetrakaidecahedrons with co-exposed {001}, {101} and {100} facets: shape-selective synthesis and enhancing photocatalytic performance”Cryst. Growth Des. 2019, 19, 2758−2764   

l  Liu Yujie, Liu Haixia*, et al. “A Z-scheme mechanism of N-ZnO/g-C3N4 for enhanced H2 evolution and photocatalytic degradation”. Applied Surface Science, 2019, 466, 133–140 

l  Huang Dong, Liu Haixia*, et al. “Template-free Synthesis of NiO Skeleton Crystal Octahedron and Effect of Surface Depression on Electrochemical Performance”, Journal of Sol-Gel Science and Technology 2019,   

l  Liu Haixia*, Zhang Lunan et al, A Study of Controllable Synthesis and FormationMechanism on 

Flower Like TiO2 withSpherical Structure. Crystals, 2018, 8, 466-477

l  Liu Haixia*, Fan Kerui,et al. “Hierarchical ZnO Microstructures: Solvothermal Synthesis, Recrystallization Process and Photoluminescence Property”.Journal of Nanoscience and Nanotechnology,2018,18,7943-7947

l  Wang Chengfei, Liu Haixia*, et al. Templated Synthesis and Photocatalytic Activity of ZnO/ZnS Heterojunction.Russian Journal of Physical Chemistry A,2018,92,200-203

l  Liu YujieLiu Haixia*, et al. Nano Needle Decorated ZnO Hollow Spheres Exposing (0001) Planes and the Erosion of Acetic Acid”. CrystEngComm, 2017, 19, 5774 – 577
l  Zhang LunanLiu Haixia*, et al. “Synthesis and Photocatalysis of Flaky Flower TiO2 with Sphere Structure” Journal of Sol-Gel Science and Technology,2017, 84, 283-289

l  Liu Yu, Liu Haixia*, et al. Adjusting the proportion of {0001} facets and high-index facets of ZnO hexagonal prisms and their photocatalytic activity. RSC Advances, 2017, 7,3515-3520

l  Li Huali, Liu Haixia*, et al. Hierarchical flower-like nanostructures of anatase TiO2 nanosheets dominated by {001} facetsJ. Alloy Compd.2016, 657,1-7

l  Li Huali, Liu Haixia*, et al. “Synthesis and photocatalytic activity of ring-like anatase TiO2 with {001} facts exposed” Ceram. Int. 2015418717-8722

l  Li Huali, Liu Haixia*, et al. “Preparation and Photocatalytic properties of TiO2 by solvothermal synthesisRare Metal Mater. Eng. 2015,44,169-172

l  Zhang Qing, Liu Haixia*, et al. Solvothermal synthesis and photocatalytic properties of NiO ultrathin nanosheets with porous structure”Appl. Surf. Sci. 2015325, 525-530 

l  Zhang Qing, Liu haixia* et al. Study on Preparation and Formation Mechanism of NiO Hierarchical Nanosheets-flower MicrospheresJ. Synth. Cryst. 2014, 43, 912-917

l  Yu Jiaoxian, … … ; Liu, Haixia, et al. “Synthesis of Spherical TiO2 Made up of High Reactive Facets of (001) ” Int. J. Electrochem.Sci. 2013, 8, 5810-5816.

l  Liu Haixia, Huang, Baibiao, et al.“Fabrication and Optical Properties of Mushroom-like ZnO microcrystals via a Solvothermal   RouteRare Metals 2011, 30, 173-176.

l  Liu Haixia, Huang, Baibiao, et al. “Synthesis and Optical Properties of Assembly-Controlled ZnO Structures by Solvothermal Method” Chin. J. Inorg. Chem. 2011, 27,752-758

l  Liu Haixia, Huang, Baibiao, et al. “Amino acid-assisted synthesis of ZnO twin-prisms and functional group’s influence on their morphologiesJ. Alloy Compd. 2010, 507, 326-330.

l  Wang, Zeyan, … … ; Liu, Haixia, et al. “Enhanced ferromagnetism and tunable saturation magnetization of Mn/C-codoped GaN nanostructures synthesized by carbothermal nitridation” J. Am. Chem. Soc. 2008, 130, 16366-16373.

l  Wang, Zeyan, … … ; Liu, Haixia, et al. “Highly photocatalytic ZnO/In2O3 hetero-nanostructures synthesized by a coprecipitation method” J. Phys. Chem. C 2009, 113, 4612-4617.

l  Wang, Peng, … … ; Liu, Haixia, et al.“Highly Efficient Visible Light Plasmonic Photocatalyst Ag@Ag(Br,I)”Chem. Eur. J. 2010, 16, 10042-10047.

l  Wang, Zeyan, … … ; Liu, Haixia, et al.“Growth of high transmittance vertical aligned ZnO nanorod arrays with polyvinyl alcohol by hydrothermal method”Mater. Lett. 2009, 63, 130-132.

l  Jing, Xiangyang, … … ; Liu, Haixia, et al.“Growth and electrical properties of Ce-doped Bi2Ti2O7 thin films by chemical solution deposition”Appl. Surf. Sci. 2008, 255, 2651-2654.

l  Yu Jiaoxian, … … ; Liu, Haixia, et al. “Hydrothermal synthesis and characterization of ZnO films with different nanostructures”. Appl. Surf. Sci. 2011, 257, 5563-5565.

主讲课程

l  本科生《无机化学》《新能源技术》《Energy Technology   

l  研究生《无机材料化学》《实验设计优化方法》


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