One of the major reasons for studying chemical kinetics is to use measurements of the macroscopic properties of a system, such as the rate of change in the concentration of reactants or products with time. 3296-90-0, Name is Dibromoneopentyl Glycol, formurla is C5H10Br2O2. In a document, author is Yuan, Jifeng, introducing its new discovery. Product Details of 3296-90-0.
Spray-Coated Colloidal Perovskite Quantum Dot Films for Highly Efficient Solar Cells
A fully automated spray-coated technology with ultrathin-film purification is exploited for the commercial large-scale solution-based processing of colloidal inorganic perovskite CsPbI3 quantum dot (QD) films toward solar cells. This process is in the air outside the glove box. To further improve the performance of QD solar cells, the short-chain ligand of phenyltrimethylammonium bromide (PTABr) with a benzene group is introduced to partially substitute for the original long-chain ligands of the colloidal QD surface (namely PTABr-CsPbI3). This process not only enhances the carrier charge mobility within the QD film due to shortening length between adjacent QDs, but also passivates the halide vacancy defects of QD by Br- from PTABr. The colloidal QD solar cells show a power conversion efficiency (PCE) of 11.2% with an open voltage of 1.11 V, a short current density of 14.4 mA cm(-2), and a fill factor of 0.70. Due to the hydrophobic surface chemistry of the PTABr-CsPbI3 film, the solar cell can maintain 80% of the initial PCE in ambient conditions for one month without any encapsulation. Such a low-cost and efficient spray-coating technology also offers an avenue to the film fabrication of colloidal nanocrystals for electronic devices.
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