a three-man team that was formed as part of a management buyout of British Gas Research's optical sensor group in 1996. This immunity means that the sensors neither disrupt the operation of any ...

Researchers have dramatically improved the detection speed and sensitivity of gas sensors by applying quantum squeezing to ...

Optical-fibre sensors have become an indispensable tool in the oil and gas industry, helping engineers to not only locate wells, but also get the most out of them. Finding oil is one of today's ...

Researchers developed a novel low-power gas sensor with a graphene/TiO2 heterostructure, enhancing NO2 detection efficiency ...

For the first time ever, scientists have used a technique called "quantum squeezing" to improve the gas sensing performance ...

Abstract: Metal oxide-based gas sensors often suffer from baseline drift and selectivity. Software-based algorithms are usually used to correct errors arising from ...

Omnitron Sensors, the pioneer in MEMS fabrication IP for a new world of sensors, has secured $13M+ in Series A funding led by ...

Some technologies, such as aerial drones used for inspecting power grids, are ill-suited to oil and gas pipeline scenarios, because most pipelines are built underground. Huawei’s OptiXsense is an ...

Gas Concentration,Gas Sensitivity,Gas Sensors,Metal Oxide,Optical Fiber,Optical Sensors,Refractive Index,Acetone Gas,Broad Prospects,Broadband Light Source,Co ...

Here, we demonstrate how a tailored long short-term transformer ensemble model for accelerated sensing (LEMAS) speeds up the response of an optical plasmonic hydrogen sensor by up to a factor of 40 ...

Quantum dots are semiconductor nanocrystals that exhibit unique optical and electronic ... has explored the use of QDs in gas ...