The trending sensors technological advancements and development of new innovative optical sensors to measure various parameters such as strain, temperature, pressure, current, voltage, gas, chemical, biomolecules and others drives the growth of optical sensors market across the world. In addition, increasing fiber optic cable installation for higher bandwidth and about advancements in hyper spectral imaging is constituting in the growth of optical sensors market.
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Furthermore, optical sensors are used to smartly regulate the mobile phone by detecting the brightness of the environment, to save energy and make the mobile user-friendly so the rising demand of smart phone likely to boost the demand optical sensors market. Furthermore, increasing adoption of smart automation techniques across various industries are contributes in the growth of optical sensors market. However, Availability other substitute sensor may hamper the market growth. Moreover, growing electronics industries, ongoing advancement in the sensors technology, growing adoption of sensors across various industries are some factors expected to serve many opportunities in upcoming years
North America holds the maximum share in the optical sensors market
North America holds the maximum share in the optical sensors market and Asia pacific is the fastest growing region in the optical sensors market. The growing use of optical electronics in Aerospace and industrial automation is likely to boost the growth of optical sensors market in North America region. The rising investments in medical, aerospace and deface industries in Asia pacific region drive the growth of optical sensors market in this region.
Researchers Use Synthetic Biology to Develop Stable Optical Nanotube Sensors
In July 2018, Researchers at EPFL have created innovative nanotube biosensors with the help of synthetic biology, which enhances their sensing capabilities in complex biofluids, such as urine and blood.
A University of Central Florida team has designed a nanostructured optical sensor
In July 2017, A University of Central Florida team has designed a nanostructured optical sensor that for the first time can efficiently detect molecular chirality – a property of molecular spatial twist that defines its biochemical properties.