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Recently, Beijing Institute of Technology has made important progress
in the field of organic small molecule photovoltaic materials.
The research group of Professor Wang Jinliang of the School of Chemistry of the university, the research group of Professor Wu Hongbin of South China University of Technology, and Dr.
Liu Feng of Lawrence National Laboratory of Berkeley in the United States cooperated to develop organic solar cell devices
by using fluorobenzothiadiazole as the electron-deficient unit, IDT as the electron-rich unit, and dithiophene as the end-capping unit oligomeric materials and fullerene derivatives.
It is understood that the organic solar cell device has a photoelectric conversion efficiency of up to 9.
1% and a filling factor
of up to 0.
77.
At present, this research result of BIT in the field of organic small molecule photovoltaic materials has been published online in the Journal of the American Chemical Society (the top journal in
the field of international chemistry).
Recently, Beijing Institute of Technology has made important progress
in the field of organic small molecule photovoltaic materials.
The research group of Professor Wang Jinliang of the School of Chemistry of the university, the research group of Professor Wu Hongbin of South China University of Technology, and Dr.
Liu Feng of Lawrence National Laboratory of Berkeley in the United States cooperated to develop organic solar cell devices
by using fluorobenzothiadiazole as the electron-deficient unit, IDT as the electron-rich unit, and dithiophene as the end-capping unit oligomeric materials and fullerene derivatives.
It is understood that the organic solar cell device has a photoelectric conversion efficiency of up to 9.
1% and a filling factor
of up to 0.
77.
At present, this research result of BIT in the field of organic small molecule photovoltaic materials has been published online in the Journal of the American Chemical Society (the top journal in
the field of international chemistry).