Add to ORKGLarge-area manufacturing of flexible nanoscale electronics has long been sought by the printed electronics industry. However, the lack of a robust, reliable, high throughput and low-cost technique that is capable of delivering high-performance functional devices has hitherto hindered commercial exploitation. Herein we report on the extensive range of capabilities presented by adhesion lithography (a-Lith), an innovative patterning technique for the fabrication of coplanar nanogap electrodes with arbitrarily large aspect ratio. We use this technique to fabricate a plethora of nanoscale electronic devices based on symmetric and asymmetric coplanar electrodes separated by a nanogap ≺ 15 nm. We show that functional devices including self-aligne...
Nanogap sensors have a wide range of applications as they can provide accurate direct detection of b...
Two simple lithography-independent methods by underetching the metal and using SiO2 sidewall as sacr...
The authors demonstrate high aspect ratio and large area metallic nanogrids as transparent electrode...
Large-area manufacturing of flexible nanoscale electronics has long been sought by the printed elect...
As the resolution of devices in the electronics industry has hit the nanoscale, device fabrication c...
Large-area electronics (LAE) manufacturing has been a key focus of both academic and industrial rese...
We report the development of coplanar green colour organic light-emitting diodes (OLEDs) based on as...
As the feature size of devices in the electronics industry has hit the nanoscale, device fabrication...
Recent advancements in the semiconductor industry have been driven by the extreme downscaling of dev...
Electronic memory cells are of critical importance in modern-day computing devices, including emergi...
We present a novel technique for fabricating nanometre spaced metal electrodes on a smooth crystal c...
The fabrication of metallic nanostructures on stretchable substrates enables specific applications t...
Main aim of the research has been the development of alternative lithography strategies for the fabr...
[[abstract]]We demonstrated a sidewall spacer nanofabrication technique for nanogap, electrodes fabr...
We apply self-assembly to form multilayers on gold structures formed by lithographic techniques to c...
Nanogap sensors have a wide range of applications as they can provide accurate direct detection of b...
Two simple lithography-independent methods by underetching the metal and using SiO2 sidewall as sacr...
The authors demonstrate high aspect ratio and large area metallic nanogrids as transparent electrode...
Large-area manufacturing of flexible nanoscale electronics has long been sought by the printed elect...
As the resolution of devices in the electronics industry has hit the nanoscale, device fabrication c...
Large-area electronics (LAE) manufacturing has been a key focus of both academic and industrial rese...
We report the development of coplanar green colour organic light-emitting diodes (OLEDs) based on as...
As the feature size of devices in the electronics industry has hit the nanoscale, device fabrication...
Recent advancements in the semiconductor industry have been driven by the extreme downscaling of dev...
Electronic memory cells are of critical importance in modern-day computing devices, including emergi...
We present a novel technique for fabricating nanometre spaced metal electrodes on a smooth crystal c...
The fabrication of metallic nanostructures on stretchable substrates enables specific applications t...
Main aim of the research has been the development of alternative lithography strategies for the fabr...
[[abstract]]We demonstrated a sidewall spacer nanofabrication technique for nanogap, electrodes fabr...
We apply self-assembly to form multilayers on gold structures formed by lithographic techniques to c...
Nanogap sensors have a wide range of applications as they can provide accurate direct detection of b...
Two simple lithography-independent methods by underetching the metal and using SiO2 sidewall as sacr...
The authors demonstrate high aspect ratio and large area metallic nanogrids as transparent electrode...