Add to ORKGLarge-scale fabrication of graphene-based devices is an aspect of great importance for various applications including chemical and biological sensing. Toward this goal, we present here a novel chemical route for the site-specific realization of devices based on reduced graphene oxide (RGO). Electrodes patterned by photolithography are modified with amino functional groups through electrodeposition. The amine groups function as hooks for the attachment of graphene oxide flakes selectively onto the electrodes. Graphene-like electrical behavior is attained by a subsequent thermal annealing step. We show that this anchoring strategy can be scaled-up to obtain RGO devices at a wafer scale in a facile manner. The scalability of our approach coupl...
Both optical and electrochemical graphene-based sensors have gone through rapid development, reachin...
Bio-sensing and analysis is an important step in the lab-on-a-chip paradigm. We develop high-through...
We demonstrate a label-free biosensor concept based on specific receptor modules, which provide immo...
Graphene and its derivatives such as graphene oxide (GO) and reduced GO (rGO) offer excellent electr...
Owing to their unique thickness-dependent electronic properties, together with perfect flexibility a...
Graphene and its derivates offer a wide range of possibilities in the electroanalysis field, mainly ...
Natural cellular materials with honeycomb or foam microstructures are excellent inspirations for the...
Graphene and its derivates offer a wide range of possibilities in the electroanalysis field, mainly ...
Graphene, the archetypal two-dimensional material, is attracting increasing attention due to its uni...
We present an electrochemically reduced graphene oxide (ERGO)-based electrochemical immunosensing pl...
By exploiting the presence of abundant carboxylic groups (-COOH) on graphene oxide (GO) and using ED...
Both optical and electrochemical graphene-based sensors have gone through rapid development, reachin...
Biosensors hold great potential for revolutionizing personalized medicine and environmental monitori...
Graphene and graphene oxide have become the base of many advanced biosensors due to their exceptiona...
The advantages conferred by the physical, optical and electrochemical properties of graphene-based n...
Both optical and electrochemical graphene-based sensors have gone through rapid development, reachin...
Bio-sensing and analysis is an important step in the lab-on-a-chip paradigm. We develop high-through...
We demonstrate a label-free biosensor concept based on specific receptor modules, which provide immo...
Graphene and its derivatives such as graphene oxide (GO) and reduced GO (rGO) offer excellent electr...
Owing to their unique thickness-dependent electronic properties, together with perfect flexibility a...
Graphene and its derivates offer a wide range of possibilities in the electroanalysis field, mainly ...
Natural cellular materials with honeycomb or foam microstructures are excellent inspirations for the...
Graphene and its derivates offer a wide range of possibilities in the electroanalysis field, mainly ...
Graphene, the archetypal two-dimensional material, is attracting increasing attention due to its uni...
We present an electrochemically reduced graphene oxide (ERGO)-based electrochemical immunosensing pl...
By exploiting the presence of abundant carboxylic groups (-COOH) on graphene oxide (GO) and using ED...
Both optical and electrochemical graphene-based sensors have gone through rapid development, reachin...
Biosensors hold great potential for revolutionizing personalized medicine and environmental monitori...
Graphene and graphene oxide have become the base of many advanced biosensors due to their exceptiona...
The advantages conferred by the physical, optical and electrochemical properties of graphene-based n...
Both optical and electrochemical graphene-based sensors have gone through rapid development, reachin...
Bio-sensing and analysis is an important step in the lab-on-a-chip paradigm. We develop high-through...
We demonstrate a label-free biosensor concept based on specific receptor modules, which provide immo...