High response organic ultraviolet photodetectors(UV-PDs) were demonstrated with 4,4',4”- tris[3-methyl-pheny(phenyl)amino]triphenylamine(m-MTDATA) and two Re(Ⅰ) complexes, (bathocuproine)- Re(CO)3CI(Re...High response organic ultraviolet photodetectors(UV-PDs) were demonstrated with 4,4',4”- tris[3-methyl-pheny(phenyl)amino]triphenylamine(m-MTDATA) and two Re(Ⅰ) complexes, (bathocuproine)- Re(CO)3CI(Re-BCP) and (bathophenanthroline)Re(CO)3Cl(Re-Bphen) to act as the electron donor and acceptor, re- spectively. UV-PDs have the configuration of indium tin oxide(ITO)/m-MTDATA(25 nm)/m-MTDATA:Re-complex (25-35 nm)/Re-complex(20 nm)/LiF(l nm)/Al(200 nm) with different blend layer thicknesses of 25, 30 and 35 nm. The optimized PD based on Re-Bphen offers a corrected-dark photocurrent up to 760μA/cm^2 at -10 V, corresponding to a response of 310 mA/W which is among the best values reported for organic UV-PDs. Excellent electron transport ability makes for such high photo-to-electron conversion.展开更多
基金Supported by the National Natural Science Foundation of China(No.60978059)the Program for New Century Excellent Talents in Universities of China(No.NCET-10-0176)+1 种基金the Key Project of Ministry of Education of China(No.210053)the Natural Science Foundation of Jilin Province,China(Nos.20101543 and 20100549)
文摘High response organic ultraviolet photodetectors(UV-PDs) were demonstrated with 4,4',4”- tris[3-methyl-pheny(phenyl)amino]triphenylamine(m-MTDATA) and two Re(Ⅰ) complexes, (bathocuproine)- Re(CO)3CI(Re-BCP) and (bathophenanthroline)Re(CO)3Cl(Re-Bphen) to act as the electron donor and acceptor, re- spectively. UV-PDs have the configuration of indium tin oxide(ITO)/m-MTDATA(25 nm)/m-MTDATA:Re-complex (25-35 nm)/Re-complex(20 nm)/LiF(l nm)/Al(200 nm) with different blend layer thicknesses of 25, 30 and 35 nm. The optimized PD based on Re-Bphen offers a corrected-dark photocurrent up to 760μA/cm^2 at -10 V, corresponding to a response of 310 mA/W which is among the best values reported for organic UV-PDs. Excellent electron transport ability makes for such high photo-to-electron conversion.
