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New generations of electronic chips bring with them the promise of more capacity, storage, and speed. They also bring new challenges to design, test and manufacturing. A look at a series of advanced test systems, how they were designed and why, sheds new light on this practical side of advanced technology. These test systems are the ATS series from IBM 相似文献
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Diphenylamine‐Substituted Carbazole‐Based Hole Transporting Materials for Perovskite Solar Cells: Influence of Isomeric Derivatives 下载免费PDF全文
Artiom Magomedov Sanghyun Paek Paul Gratia Ernestas Kasparavicius Maryte Daskeviciene Egidijus Kamarauskas Alytis Gruodis Vygintas Jankauskas Kristina Kantminiene Kyung Taek Cho Kasparas Rakstys Tadas Malinauskas Vytautas Getautis Mohammad Khaja Nazeeruddin 《Advanced functional materials》2018,28(9)
A series of new branched hole transporting materials (HTMs) containing two diphenylamine‐substituted carbazole fragments linked by a nonconjugated methylenebenzene unit is synthesized and tested in perovskite solar cells. Synthesis of the investigated materials is performed by a simple two‐step synthetic procedure providing a target product in high yield. The isolated materials demonstrate good thermal stability and majority of the investigated compounds exist in an amorphous state, which is advantageous as there is no risk of crystallization directly in the film. The highest charge drift mobility of µ0 = 4 × 10?4 cm2 V?1 s?1, measured at weak electric fields, is by ca. one order of magnitude higher than that of Spiro‐OMeTAD under identical conditions. From the perovskite solar cell testing results, it can be seen that performance of two new HTMs ( V885 and V911 ) is on a par with Spiro‐OMeTAD. Due to the ease of synthesis, good thermal, optical and photophysical properties, this type of molecules hold great promise for practical application in commercial perovskite solar cells. 相似文献
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