1D and 2D field effect transistors in gas sensing: A comprehensive review
Rapid progress in the synthesis and fundamental understanding of 1D and 2D materials
have solicited the incorporation of these nanomaterials into sensor architectures, especially …
have solicited the incorporation of these nanomaterials into sensor architectures, especially …
Benchmarking noise and dephasing in emerging electrical materials for quantum technologies
As quantum technologies develop, a specific class of electrically conducting materials is
rapidly gaining interest because they not only form the core quantum‐enabled elements in …
rapidly gaining interest because they not only form the core quantum‐enabled elements in …
Experimental observation of spin−split energy dispersion in high-mobility single-layer graphene/WSe2 heterostructures
Proximity-induced spin–orbit coupling in graphene has led to the observation of intriguing
phenomena like time-reversal invariant Z 2 topological phase and spin-orbital filtering …
phenomena like time-reversal invariant Z 2 topological phase and spin-orbital filtering …
Adsorbed Molecules as Interchangeable Dopants and Scatterers with a Van der Waals Bonding Memory in Graphene Sensors
OG Agbonlahor, M Muruganathan, T Imamura… - ACS …, 2020 - ACS Publications
Molecular adsorption-induced do** and scattering play a central role in the detection
mechanism of graphene gas sensors. However, while the do** contributions in electric …
mechanism of graphene gas sensors. However, while the do** contributions in electric …
1 / f noise in van der Waals materials and hybrids
The weak interlayer coupling in van der Waals solids allows isolation of individual atomic or
molecular layers with remarkable electrical, optical, and structural properties. The …
molecular layers with remarkable electrical, optical, and structural properties. The …
Generation-recombination and 1/f noise in carbon nanotube networks
The low-frequency noise is of special interest for carbon nanotubes devices, which are
building blocks for a variety of sensors, including radio frequency and terahertz detectors …
building blocks for a variety of sensors, including radio frequency and terahertz detectors …
Low-frequency noise characterization of single CuO nanowire gas sensor devices
Low-frequency noise properties of single CuO nanowire devices were investigated under
gas sensor operation conditions in dry and humid synthetic air at 350 C. A 1/f noise …
gas sensor operation conditions in dry and humid synthetic air at 350 C. A 1/f noise …
Scalable graphene nanogrid FET biosensors: Fabrication & characterization for sub-femtomolar detection of viral proteins
The development of highly sensitive biosensors has been significantly advanced by
graphene nanostructures, particularly nanogrids, due to their remarkable surface area-to …
graphene nanostructures, particularly nanogrids, due to their remarkable surface area-to …
A correlation noise spectrometer for flicker noise measurement in graphene samples
We present a high-resolution digital correlation spectrum analyzer for the measurement of
low frequency resistance fluctuations in graphene samples. The system exploits the cross …
low frequency resistance fluctuations in graphene samples. The system exploits the cross …
Investigation of the morphology and electrical properties of graphene used in the development of biosensors for detection of influenza viruses
NM Shmidt, AS Usikov, EI Shabunina, AV Nashchekin… - Biosensors, 2021 - mdpi.com
In this study, we discuss the mechanisms behind changes in the conductivity, low-frequency
noise, and surface morphology of biosensor chips based on graphene films on SiC …
noise, and surface morphology of biosensor chips based on graphene films on SiC …