Nehru Devabharathi
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View article: Advancing sustainability: Biodegradable electronics and materials discovery through artificial intelligence
Advancing sustainability: Biodegradable electronics and materials discovery through artificial intelligence Open
The pressing need for sustainable materials and devices stems from growing environmental concerns and the imperative to mitigate climate change. Traditional materials and devices often rely on non-renewable resources and generate significa…
View article: α‐TeO<sub>2</sub> Oxide as Transparent <i>p</i>‐Type Semiconductor for Low Temperature Processed Thin Film Transistor Devices (Adv. Mater. Interfaces 16/2024)
α‐TeO<sub>2</sub> Oxide as Transparent <i>p</i>‐Type Semiconductor for Low Temperature Processed Thin Film Transistor Devices (Adv. Mater. Interfaces 16/2024) Open
p-Type Semiconductor P-type oxide semiconducting materials processable at or slightly above room temperature are still rare. Notably, a 5 nm α-TeO2 thin film represents such an electronically active material and can be gas phase deposited …
View article: Biodegradable Temperature Sensor enabled using Printed Electronics
Biodegradable Temperature Sensor enabled using Printed Electronics Open
Printed electronics are considered the future of manufacturing electronic devices due to their cost-effectiveness, speed, and customizability compared to traditional methods using silicon. As medical electronics usage increases, there's a …
View article: Advancing Sustainability: Biodegradable Electronics and New Materials through AI and Machine Learning
Advancing Sustainability: Biodegradable Electronics and New Materials through AI and Machine Learning Open
Artificial Intelligence (AI) and machine learning (ML) are revolutionizing science and engineering by enabling researchers to analyze vast amounts of data, uncover patterns, and make predictions with unprecedented accuracy. The integration…
View article: α‐TeO<sub>2</sub> Oxide as Transparent <i>p</i>‐Type Semiconductor for Low Temperature Processed Thin Film Transistor Devices
α‐TeO<sub>2</sub> Oxide as Transparent <i>p</i>‐Type Semiconductor for Low Temperature Processed Thin Film Transistor Devices Open
In comparison to reports on n ‐type semiconducting oxides, p ‐type oxide semiconducting materials are still rare. Scarcely reported p ‐type oxide transistors demonstrated unsatisfactory environmental stability which still hinders their imp…
View article: Inkjet‐Printed Narrow‐Channel Mesoporous Oxide‐Based n‐Type TFTs and All‐Oxide CMOS Electronics
Inkjet‐Printed Narrow‐Channel Mesoporous Oxide‐Based n‐Type TFTs and All‐Oxide CMOS Electronics Open
Oxide semiconductors are becoming the materials of choice for modern‐day display industries. The performance of solution‐processed oxide thin film transistors (TFTs) has also improved dramatically over the last few years. However, while ox…