In this letter a formation of solution based of bulk-heterojunction based on freestanding silicon nanocrystals(Si-ncs) and conjugated((poly(3-hexylthiophene)(P3HT) polymer is demonstrated. Surfactant free Si-ncs prepa...In this letter a formation of solution based of bulk-heterojunction based on freestanding silicon nanocrystals(Si-ncs) and conjugated((poly(3-hexylthiophene)(P3HT) polymer is demonstrated. Surfactant free Si-ncs prepared by low-cost electrochemical etching are applied for fabrication of bulk-heterojunction and photo-conductive blends. We show that the optimum blend performance is at 40 wt% nanocrystallites concentration within the P3 HT polymer matrix. Furthermore, we illustrate that solar cell transport properties can be improved by nanosecond laser fragmentation of the nanocrystallites micrograins in ethanol. It argues that the Si-ncs/polymer blend with refine nanocrystaline structure may impact the development of low-cost solar cells by environmental- friendly mean.展开更多
文摘In this letter a formation of solution based of bulk-heterojunction based on freestanding silicon nanocrystals(Si-ncs) and conjugated((poly(3-hexylthiophene)(P3HT) polymer is demonstrated. Surfactant free Si-ncs prepared by low-cost electrochemical etching are applied for fabrication of bulk-heterojunction and photo-conductive blends. We show that the optimum blend performance is at 40 wt% nanocrystallites concentration within the P3 HT polymer matrix. Furthermore, we illustrate that solar cell transport properties can be improved by nanosecond laser fragmentation of the nanocrystallites micrograins in ethanol. It argues that the Si-ncs/polymer blend with refine nanocrystaline structure may impact the development of low-cost solar cells by environmental- friendly mean.