Download scientific diagram | a) Conductivity vs. deposition temperature for CLMP 2D InOx (black symbols) and superlattice TCOs (blue, red). b) Conductivity vs. composition for films printed at 180 °C with varying ratios of InOx to GaOx layers. Right axis shows conductivity enhancement compared to pure InOx. Error bars represent the standard deviation of ≈15 measurements. from publication: Continuous Liquid Metal Printed 2D Transparent Conductive Oxide Superlattices | 2D conducting metal oxides offer unprecedented control of thin film electrostatics at the nanoscale. A scalable, rapid, and low‐cost approach is presented to printing transparent conductive oxides (TCOs) via spontaneous low‐temperature Cabrera‐Mott oxidation of compliant | Transparent Conducting Oxides, Liquids and Low Temperature | ResearchGate, the professional network for scientists.
William SCHEIDELER, Assistant Professor, Professor, Dartmouth College, NH, Department of Engineering Sciences
Sensors, Free Full-Text
Coatings, Free Full-Text
Low-Temperature Deposited Highly Flexible In–Zn–V–O Transparent Conductive Electrode for Perovskite Solar Cells
Heterojunction Transistors Printed via Instantaneous Oxidation of Liquid Metals
Flexible Oxide Thin Film Transistors, Memristors, and Their Integration - Panca - 2023 - Advanced Functional Materials - Wiley Online Library
Coatings, Free Full-Text
Low-Temperature Deposited Highly Flexible In–Zn–V–O Transparent Conductive Electrode for Perovskite Solar Cells
Sensors, Free Full-Text
Sensors, Free Full-Text
Crystals, Free Full-Text
a) Conductivity vs. deposition temperature for CLMP 2D InOx (black
Aluminum in Automotive Vehicle Applications - Light Metal Age Magazine
a1) Sheet resistance and (a2) room-temperature conductivity and
Thermal Conductivity Testing of Thermal Interface Materials (TIM)