NUS scientists have reported in Nature (26 September) the discovery of latent universal electron donors from common anions, like oxalate, which can potently transfer electrons to organic semiconductors, realising the dream to achieve electron injection layers with ultralow work functions which can yet be processed from solution in the ambient.
AE与CSU的长期关系通过赞助的高级控制技术研究,用于半导体工艺功率应用。
Transphorm Inc.是最高可靠性高压(HV)硝酸盐(GAN)半导体的领导者 - Today宣布了其第一个Gen III PQFN88晶体管。
Altair Semiconductor, a leading provider of cellular IoT chipsets, has announced ALT1250’s validation for NB-IoT at SoftBank Corp. (“SoftBank”) in addition to CAT M1. Following this announcement, the chipset is now active on SoftBank’s network.
EV组(EVG), a leading supplier of wafer bonding and lithography equipment for the MEMS, nanotechnology and semiconductor markets, today announced that it has teamed up with SCHOTT, one of the world's leading technology groups in the areas of specialty glass and glass ceramics, to demonstrate the readiness of 300-mm (12 inch) nanoimprint lithography (NIL) for high-volume patterning of high-refractive index (HRI) glass wafers used in the manufacture of waveguides/light guides for next-generation augmented/mixed reality (AR/MR) headsets.
NUS科学家已经开发了一种方法来控制晚期光子和光电应用的二维(2D)半导体中激子的结合能。
Solar energy products are taken over by silicon as it is less expensive, stable, and more effective at converting sunlight into electricity. Any new material should compete, and win, on those bases in order to challenge silicon.
东京理工学院(Tokyo Tech)的研究人员改变了一种早期的合成技术,以开发具有非凡特性的新的半导体聚合物,可以用于薄膜晶体管等有机电子设备。
电荷导电有机材料可用于许多启发性应用,包括低成本太阳欧洲杯足球竞彩能电池和柔性电子设备。
伊利诺伊大学(U. of I.)的电气工程师已经在武器库中添加了氧化β-美洲β-最热的材料,从而克服了在制造高功率半导体方面的另一个障碍。