18879-99-7Relevant articles and documents
Alkali-metal-ion-doping strategy to improve the photovoltaic properties of Ag2BiI5solar cells
Huang, Lijian,Liu, Yue,Pan, Daocheng,Shi, Xinan,Tong, Junye,Wang, Gang,Wang, Yuxiang
, p. 14158 - 14166 (2021)
Alkali-metal-ion doping is an efficient strategy to improve the device performance of thin film solar cells. Though doping with Li+or Cs+doping has been reported in Ag-Bi-I solar cells, the influence of doping with other alkali metal ions on Ag-Bi-I solar cells has not been systematically studied. In this work, we investigate the effects of five alkali metal ions (Li+, Na+, K+, Rb+, and Cs+) on the structure, morphology, and optical and electrical properties of Ag2BiI5absorber layers, and also their influence on the device performance. All alkali-metal-doped Ag2BiI5thin films show high crystallinity and have similar suitable band gaps. Hall effect measurements demonstrate that the alkali-metal-doped Ag2BiI5films show an improved electrical performance compared with the pristine Ag2BiI5thin film, which is beneficial to achieving high-efficiency solar cells. Unexpectedly, Cs+doping can significantly increase the grain size of Ag2BiI5thin films, leading to a porous absorber that reduces the device efficiency. The device performance of Li+-, Na+-, K+- and Rb+-doped Ag2BiI5is significantly improved compared with that of pristine Ag2BiI5. It is found that the order of the power conversion efficiency promotion ability is K+> Rb+> Na+> Li+> Cs+under the same experimental conditions. The present approach can be extended to other Bi-based solar cells to improve their device performance, which is critical for applications in absorbers with poor electrical performance or low crystallinity.
Cobalt mediated by desulfurization toward the synthesis of isothiocyanates
Seelam, Mohan,Shaik, Bajivali,Kammela, Prasada Rao
supporting information, p. 1759 - 1765 (2016/10/31)
A highly efficient and simple protocol for the construction of aromatic and aliphatic isothiocyanates from their respective amines in the presence of cheap, readily available, and air-stable cobalt catalyst is described. All reactions were carried out under optimized reaction conditions and gave target products in good to excellent yields within shorter reaction time.
Design, synthesis, molecular docking and biological evaluation of new dithiocarbamates substituted benzimidazole and chalcones as possible chemotherapeutic agents
Bacharaju, Keerthana,Jambula, Swathi Reddy,Sivan, Sreekanth,Jyostnatangeda, Saritha,Manga, Vijjulatha
experimental part, p. 3274 - 3277 (2012/06/18)
A series of novel dithiocarbamates with benzimidazole and chalcone scaffold have been designed synthesised and evaluated for their antimitotic activity. Compounds 4c and 9d display the most promising antimitotic activity with IC 50 of 1.66 μM and 1.52 μM respectively.
