Victor Bright /mechanical/ en Research collaboration explores multiple methods for brain imaging /mechanical/2022/04/13/research-collaboration-explores-multiple-methods-brain-imaging Research collaboration explores multiple methods for brain imaging Anonymous (not verified) Wed, 04/13/2022 - 00:00 Faculty Research Homepage News Victor Bright Researchers at the University of Colorado Boulder and Anschutz Medical Campus are exploring several imaging techniques aimed at creating miniature microscopes that are lightweight enough to be worn by freely moving mice as they navigate a maze or socialize with other mice. window.location.href = `/engineering/2022/04/13/research-collaboration-explores-multiple-methods-brain-imaging`;

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Traditional 0 On White ]]> Wed, 13 Apr 2022 06:00:00 +0000 Anonymous 3772 at /mechanical Watch Victor M. Bright's Distinguished Research Lecture: Microscale Sensors and Machines /mechanical/2021/11/05/watch-victor-m-brights-distinguished-research-lecture-microscale-sensors-and-machines Watch Victor M. Bright's Distinguished Research Lecture: Microscale Sensors and Machines Anonymous (not verified) Fri, 11/05/2021 - 15:25 Faculty Research Seminars and Events 2021 Fall Victor Bright Rachel Leuthauser

Professor Victor M. Bright of the Paul M. Rady Department of Mechanical Engineering delivered his Distinguished Research Lecture “Microscale Sensors and Machines” on November 2, 2021. In this talk, Professor Bright gave an overview of the history of microscale sensors and micromachines, and the contributions of his research.

The Distinguished Research Lectureship is among the most esteemed honors bestowed by the faculty upon a faculty member at the University of Colorado Boulder. Each year, the  requests nominations from faculty for the Distinguished Research Lectureship, and a faculty review panel recommends recipients.

[video:https://www.youtube.com/watch?v=7Ql9l8UVVzw]

In this talk, Professor Bright gave an overview of the history of microscale sensors and micromachines, and the contributions of his research.

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Traditional 0 On White ]]> Fri, 05 Nov 2021 21:25:44 +0000 Anonymous 3483 at /mechanical Mechanical engineering professor asserts that “size matters” when it comes to microscale sensors and machines /mechanical/2021/10/13/mechanical-engineering-professor-asserts-size-matters-when-it-comes-microscale-sensors Mechanical engineering professor asserts that “size matters” when it comes to microscale sensors and machines Anonymous (not verified) Wed, 10/13/2021 - 14:01 Faculty Micro/Nanoscale Research 2021 Fall Victor Bright Victor M. Bright of the Paul M. Rady Department of Mechanical Engineering will deliver his Distinguished Research Lecture “Microscale Sensors and Machines—Size Matters!” virtually on Tuesday, November 2 from 4–5 p.m. window.location.href = `/researchinnovation/2021/10/06/engineering-professors-nov-2-lecture-asserts-size-matters-when-it-comes-microscale`;

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Traditional 0 On White ]]> Wed, 13 Oct 2021 20:01:27 +0000 Anonymous 3451 at /mechanical Scientists win grant to unravel mystery of how animals track scent /mechanical/2020/08/12/scientists-win-grant-unravel-mystery-how-animals-track-scent Scientists win grant to unravel mystery of how animals track scent Anonymous (not verified) Wed, 08/12/2020 - 00:00 All News Faculty Micro/Nanoscale Research Homepage News Victor Bright Seeking to understand how animals follow scent, a team of scientists has won a grant to peer deeply inside the brain as the process takes place. window.location.href = `https://news.cuanschutz.edu/news-stories/scientists-win-grant-to-unravel-mystery-of-how-animals-track-scent`;

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Traditional 0 On White ]]> Wed, 12 Aug 2020 06:00:00 +0000 Anonymous 2835 at /mechanical Big Sound from Nanoengineered Speakers /mechanical/2016/10/27/big-sound-nanoengineered-speakers Big Sound from Nanoengineered Speakers Anonymous (not verified) Thu, 10/27/2016 - 13:02 All News Micro/Nanoscale Research Victor Bright

At a concert, bigger is better when it comes to amplifiers and speakers, but research in CU Boulder mechanical engineering professor Victor Bright's  is demonstrating that small speakers can produce big sound too. How small? Fewer than 300 atoms thick.

Listen to a clip of music from the speakers

It's all thanks to the thermoacoustic effect, the ability to transform temperature fluctuations into sound energy. Recorded sound didn't begin until Thomas Edison's phonograph, but the thermoacoustic effect is a scientific principle that has been known for centuries and was studied for use in loudspeakers 100 years ago. Progress in nanofabrication has renewed interest in the phenomenon.

Bright's research group is now showing readily audible thermoacoustic effects from atomic-layer-deposited tungsten bridge structures less than 300 atoms thick.

The studies of the nanospeakers were led by research scientist Joseph J. Brown, PhD, and performed by undergraduate student Nathan C. Moore with graduate students Omkar D. Supekar and Jonas C. Gertsch. The research is providing new insights into acoustic measurements of thermoacoustic nanosystems.

The devices they create consist of suspended tungsten bridges around 25 nm thick and 17 μm x 2 μm in area that produce audible sound and music. Operated in parallel in large arrays, the devices produce sound pressure levels of 90-100 dB at frequencies above 10 kHz and ~10 W electrical input power, and the team was able to measure 104 dB output at 20 kHz.

Read the full story in a .

The profile at Nanotechweb is based on the team's recently published paper in the journal Nanotechnology titled

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