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RENBAO WANG1,2, SHAORUI WANG1, HAIHONG NIU3, SHIDING MIAO1, LEI WAN1, JINZHANG XU1,*
Mn2+ doped of CdS is employed to improv e quantum dots sensitized solar cells (QDSSCs) performance. The effects of Mn2+ doped on the performance of QDSSCs a re investigated. QDSSCs that are fabricat ed with doped CdS/CdSe deposited on meso porous TiO2-nano-SiO2 hybrid film as photoanode have higher power conversion efficiency under the illumination of one sun (AM1.5, 100mW/cm2), and exhibit higher activity especially in the short circuit current density (Jsc) as compared to the undoped QDSSCs. It is found that certain amou nt of Mn2+ doped in CdS is crucial to make photoelectrons to be trapped and protect them from charge recombination with oxidized polysulfide and/or holes. The 60mM Mn 2+ doped concentration is optimal to obtain the highest conversion efficiency (2.45%) in the experiment. The introduced Mn2+ as mid gap states give s a significant enhancement in the performance of corresponding QDSSCs in terms of photocurrent density and power conversion efficiency..
Mn2+-doped, Quantum dots, Solar cells.
RENBAO WANG, SHAORUI WANG, HAIHONG NIU, SHIDING MIAO, LEI WAN, JINZHANG XU, E ffect of Mn 2+ d op ing on the performance of quantum dots sensitized solar cells, Optoelectronics and Advanced Materials - Rapid Communications, 8, 1-2, January-February 2014, pp.57-62 (2014).
Submitted at: March 4, 2013
Accepted at: Jan. 22, 2014
Optoelectronics and Advanced Materials - Rapid Communications
(2023): 0.5 - 2023 Journal Citation Reports (Clarivate Analytics, 2024)
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