https://community.element14.com/learn/publications/w/documents/5903/inexpensive-sensor-developed-to-detect-nitric-oxideen-USTelligent Community 12https://community.element14.com/learn/publications/w/documents/5903/inexpensive-sensor-developed-to-detect-nitric-oxideThu, 07 Oct 2021 00:37:12 GMT93d5dcb4-84c2-446f-b2cb-99731719e767:edacf172-d7fd-4d37-ac25-7e6f188fae44e14newshttps://community.element14.com/learn/publications/w/documents/5903/inexpensive-sensor-developed-to-detect-nitric-oxide#commentsCurrent Revision posted to Documents by e14news on 10/7/2021 12:37:12 AM<br /> <p style="margin:0;">A team of researchers from Princeton and Rice universities have discovered a new way to identify nitric oxide using inexpensive and portable lasers and sensors.</p><p style="margin:0;padding:0px;">&nbsp;</p><p style="margin:0;">The gas is so potent that even a few molecules of it in a billion of air will promote smog, acid rain and other environmental effects, while tiny amounts of it in a patient&#39;s breath could help to diagnose asthma and other conditions.</p><p style="margin:0;padding:0px;">&nbsp;</p><p style="margin:0;">A sensor could be used to monitor car and truck emissions, as well as public exposure to pollutants in industrial environments, while it would be similarly attractive in medical applications.</p><p style="margin:0;padding:0px;">&nbsp;</p><p style="margin:0;">&quot;The sensor we&#39;ve developed is much more accurate and sensitive than existing systems, yet is far more compact and portable,&quot; commented Gerard Wysocki, assistant professor of electrical engineering at Princeton.</p><p style="margin:0;padding:0px;">&nbsp;</p><p style="margin:0;">Earlier in the year, a method for creating a gas sensor from nanotubes was described by scientists at the National Institute of Standards and Technology.</p><div style="clear:both;"></div>