Metal–organic frameworks as catalysts and biocatalysts for methane oxidation: The current state of the art
LS Andrade, HHLB Lima, CTP Silva… - Coordination Chemistry …, 2023 - Elsevier
As the main component of natural and shale gas, seabed clathrates, and biogas, methane
(CH 4) is an abundant C1 resource for added-value chemicals. CH 4 is of critical importance …
(CH 4) is an abundant C1 resource for added-value chemicals. CH 4 is of critical importance …
Integration of devices based on metal–organic frameworks: A promising platform for chemical sensing
X Wang, T Ma, JG Ma, P Cheng - Coordination Chemistry Reviews, 2024 - Elsevier
Chemical sensor devices are rapidly developing due to the demand for healthcare,
environmental monitoring, manufacturing industry and smart home. Unlike traditional …
environmental monitoring, manufacturing industry and smart home. Unlike traditional …
Advances in carbon nanotube-based gas sensors: Exploring the path to the future
K Luo, H Peng, B Zhang, L Chen, P Zhang… - Coordination Chemistry …, 2024 - Elsevier
In the era of the Internet of Things, sensors are pivotal for a smart and interconnected future.
Gas sensors, particularly those based on carbon nanotubes (CNTs), emerge as essential …
Gas sensors, particularly those based on carbon nanotubes (CNTs), emerge as essential …
Recent developments in sensor technologies for enabling the hydrogen economy
K Ramaiyan, L Tsui, EL Brosha, C Kreller… - ECS Sensors …, 2023 - iopscience.iop.org
Efforts to create a sustainable hydrogen economy are gaining momentum as governments
all over the world are investing in hydrogen production, storage, distribution, and delivery …
all over the world are investing in hydrogen production, storage, distribution, and delivery …
Single-Molecule Methane Sensing Using Palladium-Functionalized nIR Fluorescent Single-Walled Carbon Nanotubes
There has been considerable interest in detecting atmospheric and process-associated
methane (CH4) at low concentrations due to its potency as a greenhouse gas. Nanosensor …
methane (CH4) at low concentrations due to its potency as a greenhouse gas. Nanosensor …
Pt‐Pd Nanoalloys Functionalized Mesoporous SnO2 Spheres: Tailored Synthesis, Sensing Mechanism, and Device Integration
L Xue, Y Ren, Y Li, W Xie, K Chen, Y Zou, L Wu… - Small, 2023 - Wiley Online Library
Abstract Methane (CH4), as the vital energy resource and industrial chemicals, is highly
flammable and explosive for concentrations above the explosive limit, triggering potential …
flammable and explosive for concentrations above the explosive limit, triggering potential …
Ti2CTx MXene: A novel p-type sensing material for visible light-enhanced room temperature methane detection
The development of semiconductor-based room-temperature methane (CH 4) gas sensors
is appealing but challenging. Herein, we report a CH 4 gas sensor operating at room …
is appealing but challenging. Herein, we report a CH 4 gas sensor operating at room …
Conductometric methane gas sensors based on ZnO/Pd@ ZIF-8: Effect of dual filtering of ZIF-8 to increase the selectivity
Selectivity remains the biggest challenge for metal oxide semiconductor (MOS)-based gas
sensors, especially for inactive gases such as CH 4. In this work, the core-shell structured …
sensors, especially for inactive gases such as CH 4. In this work, the core-shell structured …
A chemiresistive methane sensor
A chemiresistive sensor is described for the detection of methane (CH4), a potent
greenhouse gas that also poses an explosion hazard in air. The chemiresistor allows for the …
greenhouse gas that also poses an explosion hazard in air. The chemiresistor allows for the …
Investigations of methane gas sensor based on biasing operation of n-ZnO nanorods/p-Si assembled diode and Pd functionalized Schottky junctions
In this work, we developed methane gas sensors based on zinc oxide nanorod (n-ZnO-NR)
arrayed assembly, synthesized using aqueous phase deposition on p-Si (100) substrates …
arrayed assembly, synthesized using aqueous phase deposition on p-Si (100) substrates …