Tong Bihai
Professor
Department of Metallurgical Engineering
Anhui University of Technology
United States of America
Biography
Tong Bihai, male, doctor, associate professor. In 2008 graduated from Sun Yat-sen University, received a doctorate in engineering. 2011 was hired as an associate professor of Anhui University of Technology, master tutor. 2010 - 2011 to the Chinese Academy of Sciences, Guangzhou Institute of Chemistry visited. 2013 - 2014 to Tsinghua University in Taiwan to conduct postdoctoral research. Has presided over the completion of a national youth natural science fund, Anhui Provincial Department of education of natural science research key project 1 , a school outstanding youth fund. Currently presided over the National Natural Science Foundation of a project. Published more than 40 papers, including SCI , EI included more than 30 articles. Apply for more than 20 national invention patents , has been 8 claims. Each year to guide undergraduate students to carry out innovative business projects, and won several awards. To guide a number of graduate students to obtain national scholarships, and successfully applied to the famous foreign universities to study for a doctorate.
Research Interest
iridium, platinum, palladium functional metal organic materials.
Publications
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BihaiTong , Hsiao-Yun Ku, Yun Chi, Hao-Che Kao, Chia-Chi Yeh, Chih-Hao Chang, Shih-Hung Liu, Gene-Hsiang Lee, and Pi-Tai Chou, Heteroleptic Ir (III) phosphorswith bis-tridentate chelating architecture for high efficiency OLEDs, Journal of Materials Chemistry C (IF 5.0) , 2015, 3, 3460-3471.
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BihaiTong , Qunbo Mei, Ruqiang Tian, ​​Min Yang, Qingfang Hua, Yujie Shi, Shanghui Ye, High-brightness solution-processed phosphorescent OLEDs withpyrimidine-based iridium (III) complexes, RSC Advances (IF 3.2), 2016, 6 , 34970-34976.
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Chu-YunKuei, Wei-Lung Tsai, Bihai Tong ( co one for ), Min Jiao, Wei-Kai Lee, Yun Chi, Chung-Chih Wu, Shih-Hung Liu, Gene-Hsiang Lee, and Pi-Tai Chou , Bis-tridentateIr (III) complexes with nearly unitary RGB phosphorescence and organic light-emitting diodes with external quantum efficiency exceeding 31%, Advanced Materials (IF18.9), 2016, 28 (14), 2795-2800.
