Recent progress of exhaled gas‐based diagnosis based on field effect transistor sensors
G Lu, T Ji, S He, F Ai, L Yan, J Hu - Advanced Functional …, 2024 - Wiley Online Library
Exhaled breath‐based disease diagnosis is an ancient technique, and the application of this
technique is rapidly developing for disease quick testing, such as viral infection, asthma …
technique is rapidly developing for disease quick testing, such as viral infection, asthma …
[HTML][HTML] Recent advances in silicon FET devices for gas and volatile organic compound sensing
A Mukherjee, Y Rosenwaks - Chemosensors, 2021 - mdpi.com
Highly sensitive and selective gas and volatile organic compound (VOC) sensor platforms
with fast response and recovery kinetics are in high demand for environmental health …
with fast response and recovery kinetics are in high demand for environmental health …
Realization of an Ultrasensitive and Highly Selective OFET NO2 Sensor: The Synergistic Combination of PDVT-10 Polymer and Porphyrin–MOF
Organic field-effect transistors (OFETs) are emerging as competitive candidates for gas
sensing applications due to the ease of their fabrication process combined with the ability to …
sensing applications due to the ease of their fabrication process combined with the ability to …
Aggregation behavior in naphthalene-appended diketopyrrolopyrrole derivatives and its gas adsorption impact on surface potential
Diketopyrrolopyrrole derivatives containing phenyl and thiophene units adorned with
alkoxynaphthalene (Naph-PDPP and Naph-TDPP) were synthesized by a Suzuki cross …
alkoxynaphthalene (Naph-PDPP and Naph-TDPP) were synthesized by a Suzuki cross …
[HTML][HTML] Electrostatically formed nanowire (EFN) transistor—An ultrasensitive VOC and gas sensor
A Mukherjee, I Shem Tov, Y Rosenwaks - Applied Physics Reviews, 2024 - pubs.aip.org
The perpetual need for high-performance volatile organic compound (VOC) sensors
remains prevalent across diverse sectors including environmental health monitoring …
remains prevalent across diverse sectors including environmental health monitoring …
Ultrasensitive hydrogen detection by electrostatically formed silicon nanowire decorated by palladium nanoparticles
Developing high performance hydrogen (H 2) sensors is of utmost importance to facilitate
the safe usage of H 2 as the alternative source of clean and renewable energy. We present …
the safe usage of H 2 as the alternative source of clean and renewable energy. We present …
Surface plasmon resonance amplified efficient polarization-selective volatile organic compounds CdSe-CdS/Ag/PMMA sensing material
Volatile organic compounds (VOCs) are potentially dangerous to the environment and
human health. The developed sensing template in this study was prepared by a one-step …
human health. The developed sensing template in this study was prepared by a one-step …
Electrostatic selectivity of volatile organic compounds using electrostatically formed nanowire sensor
For the past several decades, there is growing demand for the development of low-power
gas sensing technology for the selective detection of volatile organic compounds (VOCs) …
gas sensing technology for the selective detection of volatile organic compounds (VOCs) …
Effect of thermal treatment on zeolite for real-time gas sensing of oxygenated volatile organic compounds
The breathable air is severally polluted due to the emission of various pollutants like volatile
organic compounds (VOCs) and dust particles of submicron sizes. These pollutants have …
organic compounds (VOCs) and dust particles of submicron sizes. These pollutants have …
Antenna Effect in Large Area Palladium-Coated Electrostatically Formed Silicon Nanowire for Ppb Level Hydrogen Sensing
I ShemTov, A Mukherjee, Z Musafi… - ACS Applied …, 2024 - ACS Publications
An electrostatically formed nanowire (EFN) with an electrostatically formed channel is a
highly sensitive and selective sensor for detecting various gases and volatile organic …
highly sensitive and selective sensor for detecting various gases and volatile organic …