Transparent, Flexible, and Low-Operating-Voltage Resistive Switching Memory Based on AlO/IZO Multilayer.

In this study, a different number of indium zinc oxide (IZO) interlayers are fabricated into AlO-based transparent resistive switching memory on a transparent indium tin oxide (ITO)/glass substrate at room temperature. AlO/IZO multilayer transparent memory has a transmittance of at least 65% in the wavelength range of 400-900 nm. In addition, the AlO/IZO multilayer transparent memory can achieve an electroforming voltage that is 35.

Effect of Electrode Materials on the Electrical Characteristics of Amorphous Indium-Tin-Gallium-Zinc Oxide Thin-Film Transistors.

In this study, we investigated the effect of electrode materials on the electrical characteristics of coplanar top-gate a-ITGZO thin-film transistors, in which the gate, source, and drain electrodes were made of the same metal, Ti or Al. The field-effect mobilities of the a-ITGZO thin-film transistors with Ti and Al electrodes were 35.2 and 20.

High-Performance Daytime Radiative Cooler and Near-Ideal Selective Emitter Enabled by Transparent Sapphire Substrate.

Daytime radiative cooling serving as a method to pump heat from objects on Earth to cold outer space is an attractive cooling option that does not require any energy input. Among radiative cooler structures, the multilayer- or photonic-structured radiative cooler, composed of inorganic materials, remains one of the most complicated structures to fabricate. In this study, transparent sapphire-substrate-based radiative coolers comprising a simple structure and selective emitter-like optical characteristics are proposed.

Nonimmunogenetic Viral Capsid Carrier with Cancer Targeting Activity.

Although protein nanoparticles (PNPs) (e.g., viral capsids) capable of delivering a broad range of drug agents have shown distinctive advantages over synthetic nanomaterials, PNPs have an intrinsic drawback that hampers their clinical application, that is, potential immunogenicity.