A Cadmium-Free Cu2ZnSnS4/ZnO Hetrojunction Solar Cell Prepared by Practicable Processes

A cadmium-free Cu2ZnSnS4/ZnO hetrojunction solar cell with conversion efficiency of 4.29% has been obtained. The Cu2ZnSnS4 absorber film was formed utilizing sulfurization of laminated metallic precursors, and the ZnO buffer layer was then deposited on it by ultrasonic spray pyrolysis. In comparison with a conventional Cu2ZnSnS4/CdS hetrojunction solar cell, the open circuit voltage as well as the relative quantum efficiency at the short-wavelength regions was increased. The in-plane homogeneity of p-n junction was improved by depositing the ZnO layer on Cu2ZnSnS4 film via ultrasonic spray pyrolysis. (C) 2011 The Japan Society of Applied PhysicsArticleJAPANESE JOURNAL OF APPLIED PHYSICS. 50(3): 032301 (2011)journal articl

Low pH enhances Sp1 DNA binding activity and interaction with TBP

Sp1 is involved in the regulation of a wide variety of genes, including housekeeping genes and genes involved in tumor growth. Sp1 is a member of the C2-H2 zinc-finger family and is important for protection against cellular acidosis in cells that grow under hypoxic or acidic conditions, such as tumor cells. To obtain an insight into the molecular mechanisms underlying pH-dependent transcription by Sp1, both its DNA binding activity and its interaction with TATA binding protein (TBP) were investigated under various pH conditions. We show here that the DNA binding activity of Sp1 increased and Sp1 formed a stable interaction with TBP at low pH. These findings indicate that pH changes significantly modulate the activity of Sp1 and thus contribute to the cellular response under hypoxic or acidic conditions