Huang Xiang

Huang Xiang, PhD, Associate Professor

Department of Materials Science and Engineering

contact information: materials@ouc.edu.cn

https://www.x-mol.com/groups/jinyc (Off campus research group homepage)

Biography:

Education experience

Ph.D: Shanghai Institute of Ceramics, Chinese Academy of Sciences

MA: China University of Geosciences (Beijing)

BS: East China college of Geology

Job experience:

2002.7-present: College of Materials Science and Engineering, Ocean University of China

Research Interests:

Sodium ion battery

Petroleum refining and hydrogenation desulfurization catalyst

Metallic nano functional materials

Projects:

(1) The Influence of Organic Matter in Marine Sediments on the Performance of Marine Mud Batteries and Its Diffusion Dynamics Mechanism (2021 National Natural Science Foundation, 22075262, Rank Fourth)

(2) Chemical behavior of nickel and phosphorus elements in hydrothermal environment and green synthesis and performance of nano Ni2P catalyst (2014 Shandong Provincial Natural Science Foundation, ZR2014BM022, Rank First)

(3) Green synthesis, catalytic performance and mechanism of a new type of petroleum hydrogenation refining catalyst Ni2P (2012 China Petroleum Science and Technology Innovation Fund, 2012D-5006-0404, Rank First)

(4) Green synthesis and hydrogenation refining performance of a new type of petroleum hydrogenation refining nano nickel phosphorus catalyst (2012 Qingdao Science and Technology Development Plan Applied Basic Research, 12-1-4-1- (24) - jch, Rank First)

(5) Research on Green Synthesis of New Nickel Phosphorus Catalyst for Petroleum Hydrorefining (Fundamental Research Funds for Central Universities, Young Teachers Fund of Ocean University of China, 201113338, Rank First)

(6) Research on Preparation Technology of Anti corrosion and Wear resistant Marine Ceramic Pump Wheel (2006 Shandong Provincial Natural Science Foundation, Y2006F48, Rank First)

(7) Preparation technology of key materials for deep-sea diving and seawater desalination base construction and dynamic process of microbial adhesion and corrosion interface (Qingdao Science and Technology Talent Plan, 05-2-JC-76, Rank Third)

(8) Research and Development of High Performance Ceramic Component Processing Technology - Injection Molding Technology for High Performance Ceramic Components (2003 Qingdao Major Science and Technology Project, 03-1-GX-1, Rank Second)

(9) Forming and Preparation Technology of Special shaped Ceramic Heating Tube (National 863 Project, Preparation and Application Technology of High strength Hollow Special shaped Ceramic Tube for Liquid Heating, Sub project 2002AA332090, Rank Third)

(10) Research on the preparation technology of alumina ceramic injection molding slurry (funded by Shandong Industrial Ceramics Research Institute, Rank Second)

(11) Research on Preparation Technology of High Performance and Deep Depth Buoyant Materials (2009 Shandong Province Science and Technology Development Plan Project, 2009GG10003039, Rank Third)

(12) Key Technology for Industrialization of Safe Vacuum Glass - Preparation Technology of Lead free Low temperature Sealing Glass (2010 Qingdao Science and Technology Plan Basic Research, 10-3-4-1-9-jch, Rank Third)

Research output:

(1) Wang Xin, Huang Xiang, Chen Haiyan, Wu Pingwei Marine Materials Engineering Beijing: Science Press, July 2011

(2) Yin Yansheng, Huang Xiang, Dong Lihua Marine Engineering Materials Science Beijing: Science Press, May 2008

(3) Qi Zhao, Yang Han, Xiang Huang⁎, Jinhui Dai, Jintao Tian, Zhibin Zhu, Li Yue. Hydrothermal synthesis of Ni2P nanoparticle and its hydrodesulfurization of dibenzothiophene. Journal of Nanoparticle Research, (2017) 19:123.

(4) Li Yue, Guangci Li, Feng Zhang, Lei Chen, Xuebing Li∗, Xiang Huang∗. Size-dependent activity of unsupported Co-Mo sulfide catalysts forthe hydrodesulfurization of dibenzothiophene, Applied Catalysis A: General, 512 (2016) 85–92.

(5) Baijun Feng, Zhong Wang, Yuanyuan Sun, Chuanhui Zhang, Sifu Tang, Xuebing Li∗, Xiang Huang∗. Size controlled ZSM-5 on the structure and performance of Fe catalyst in the selective catalytic reduction of NOx with NH3. Catalysis Communications, 80 (2016) 20–23.

(6) Xiang Huang⁎, Qing Dong, He Huang, Li Yue, Zhibin Zhu, Jinhui Dai. Facile synthesis of iron phosphide Fe2P nanoparticle and its catalytic performance in thiophene hydrodesulfurization. Journal of Nanoparticle Research, (2014) 16:2785.

(7) Xiang Huang⁎, Jiaojiao Sun, Bo Wang, He Huang. A novel solvothermal route to nanocrystalline Sn4P3 with red phosphorous as raw material. Advanced Materials Research, 2013(704): 241-245.

(8) Bo Wang, Xiang Huang⁎, Zhibin Zhu, He Huang, Jinhui Dai. Hydrothermal synthesis of nano nickel phosphides and investigation of their thermal stability. International Journal of Materials Research, 2013, 104(5): 507-510.

(9) Bo Wang, Xiang Huang⁎, Zhibin Zhu, He Huang, Jinhui Dai. Hydrothermal synthesis of cobalt–nickel bimetallic phosphides. Appl Nanosci, 2012(2): 481–485.

(10) Bo Wang, Xiang Huang⁎, Zhibin Zhu, He Huang, Jinhui Dai. Hydrothermal synthesis method of nickel phosphide nanoparticles. Appl Nanosci, 2012(2): 423-427.

(11) He Huang, Xiang Huang*, Zhibin Zhu, Jinhui Dai. Hydrothermal synthesis of cobalt phosphide nanoparticles. Ceramics International, 2012(38): 1713–1715.

(12) Junlan Xie, Xiang Huang*, Zhibin Zhu, Jinhui Dai. Hydrothermal synthesis of orthorhombic LiMnO2 nano-particles. Ceramics International, 2011(37): 419-421.

(13) Junlan Xie, Xiang Huang*, Zhibin Zhu, Jinhui Dai. Hydrothermal synthesis of LiNixCo1-xO2 cathode materials. Ceramics International, 2011(37): 665-668.

(14) Yi Zheng, Xiang Huang*, Jinhui Dai, Zhibin Zhu, Junlan Xie. Hydrothermal synthesis of LiMnxCo1-xO2 cathode materials. Ceramics International, 2011(37): 2913-2916.

(15) Yi Zheng, Xiang Huang*, Jinhui Dai, Zhibin Zhu. Hydrothermal synthesis of LiMn0.4Co0.6O2 cathode materials. Ceramics International, 2011(37): 3771-3773.

(16) Junlan Xie, Xiang Huang*, Jinhui Dai, Zhibin Zhu, Yi Zheng, Zongyi Liu. Hydrothermal synthesis of LiNi0.9Co0.1O2 cathode materials. Ceramics International, 2010(36): 2489-2492.

(17) Junlan Xie, Xiang Huang*, Zhibin Zhu, Jinhui Dai. Hydrothermal synthesis of Li(Ni1/3Co1/3Mn1/3)O2 for lithium rechargeable batteries. Ceramics International, 2010(36): 2485-2487.

(18) Zongyi Liu, Xiang Huang*, Zhibin Zhu, Jinhui Dai. A simple mild hydrothermal route for the synthesis of nickel phosphide powders. Ceramics International. 2010(36): 1155-1158.

(19) Chunhua Zhang, Xiang Huang*, Yansheng Yin, Fengjie Xia, Jinhui Dai, Zhibin Zhu. Preparation of boron carbide–aluminum composites by non-aqueous gelcasting. Ceramics International, 2009(35): 2255-2259.

(20) Chunhua Zhang, Xiang Huang*, Yansheng Yin, Jinhui Dai, Zhibin Zhu. Hydrothermal synthesis of monodispersed LiFePO4 cathode materials in alcohol-water mixed solutions. Ceramics International, 2009(35): 2979-2982.

(21) Xiang Huang, Junfeng Ma*, Pingwei Wu, Yingmo Hu, Jinhui Dai, Zhibin Zhu, Haiyan Chen, Hongfen Wang. Hydrothermal synthesis of LiCoPO4 cathode materials for rechargeable lithium ion batteries. Materials Letters, 2005, 59: 578- 582.

(22) Xiang Huang*, Dongliang Jiang, Shouhong Tan. Apatite Formation on the Surface of Wollastonite/Tricalcium Phosphate Composite Immersed in Simulated Body Fluid. Journal of Biomedical Materials Research - Part B Applied Biomaterials, 2004, 69(1): 70-72.

(23) Xiang Huang*, Dongliang Jiang, Shouhong Tan. Novel hydrothermal synthesis of tobermorite fibers using Ca(II)-EDTA complexprecursor. Journal of the European Ceramic Society. 2003, 23: 123-126

(24) Xiang Huang*, Dongliang Jiang, Shouhong Tan. Novel hydrothermal synthesis method for tobermorite fibers and inverstigation on their thermal stability. Materials Research Bulletin. 2002, 37: 1885-1892.

(25) Xia Li, Jinhui Dai, Tonglei Lu, Zhibin Zhu, Xiang Huang, Pingwei Wu, Haiyan Li. The Research on Hydrothermal Synthesis of Na0.5Bi0.5TiO3 Powder from TiCl4. Material Sciences, 2012(2): 36-41.

(26) Tonglei Lu, Jinhui Dai∗, Jintao Tian, Wenwen Song, Xizhong Liu, Lin Lai, Huijuan Chu, Xiang Huang, Xiaoyun Liu. Synthesis of Na0.5Bi0.5TiO3 powders through hydrothermal method. Journal of Alloys and Compounds， 2010(490): 232-235.

(27) Huang Xiang, Wang Xiaopeng, Wang Tongkun, Shang Qinghao, Zhang Xianghan, Zhang Xiao. Green synthesis of aluminum nitride ultrafine powder Material development and application, 2014(1): 45-49.

(28) Wang Tongkun, Huang Xiang, Zhen Guansheng. High temperature phase transition of lanthanum oxide doped alumina Material development and application, 2013, 28(3): 88-93.

(29) Shen Danyang, Huang Xiang, Zhen Guansheng, Wang Tongkun, Yang Qianjiang, Pan Xuehong, Zhen Qiang. Green synthesis and phase transition control of nano alumina powder Material development and application, 2013, 28(1): 56-61.

(30) Huang Xiang, Dai Jinhui, Zhu Zhibin, Wu Pingwei. Research on injection molding of high-performance graphite materials Material development and application, 2013, 28(1): 67-71.

(31) Zhen Guansheng, Huang Xiang *, Wang Tongkun. Phase transition of nanoscale alumina and barium doped alumina 2013, 19(3): 18-22.

(32) Xia Fengjie, Huang Xiang, Yin Yansheng. Study on the gel casting process of boron carbide ceramics Material development and application, 2008,23(4): 41-46.

(33) Xia Fengjie, Huang Xiang, Yin Yansheng. Study on the gel casting process of boron carbide aluminum composite Modern technology ceramics, 2008, 116(2): 3-6.

(34) Huang Xiang, Jiang Dongliang, Tan Shouhong. Hydrothermal synthesis of bioactive calcium silicate whiskers using a growth agent method Journal of Inorganic Materials, 2003, 18(1): 143-148.

(35) Huang Xiang, Jiang Dongliang, Tan Shouhong. Hydrothermal synthesis of tobermorite whiskers using chelating agent method Journal of Ceramics, 2001, 22(3): 138-141.

Authorized Patent

(1) Huang Xiang, Jiang Dongliang, Tan Shouhong Process technology for hydrothermal preparation of tobermorite whiskers using chelating agent method, invention patent, CN01132285.3.

(2) Huang Xiang, Jiang Dongliang, Tan Shouhong Preparation Method of Bioactive Wollastonite Ceramics, Invention Patent, CN02110847.1.

(3) Huang Xiang, Jiang Dongliang, Tan Shouhong Preparation method of wollastonite tricalcium phosphate composite biomaterial, invention patent, CN02110848.X.

(4) Huang Xiang, Xia Fengjie, Yin Yansheng A non-aqueous injection molding process for boron carbide products, invention patent, CN200710113806.1.

(5) Huang Xiang, Xia Fengjie, Yin Yansheng, gel injection molding process of boron carbide metal composite, invention patent, CN200710113807.6.

(6) Huang Xiang, Liu Zongyi, Dai Jinhui, Zhu Zhibin A hydrothermal synthesis process for phosphides, invention patent, CN200910018549.2.

(7) Huang Xiang, Zhen Guansheng A hydrothermal preparation method for a supported nickel phosphide catalyst, invention patent, CN201310148930.7

(8) Huang Xiang, Zhen Guansheng A hydrothermal preparation method for a supported nickel phosphide catalyst using nano red phosphorus as a phosphorus source, with an invention patent, CN201310149267.2

(9) Dai Jinhui, Huang Xiang, Liu Zongyi, Wang Peipei A microwave curing process of ceramic material gel casting Invention patents, CN200910308459

(10) Dai Jinhui, Wu Pingwei, Huang Xiang, Zhu Zhibin, Tian Jintao, Li Haiyan, Ma Xinlei, Zhou Jinlei A high-strength low-density ceramic hollow sphere and its preparation method, invention patent, CN201110437012.7