Week in Review: 10/15/17 – 10/21/17


CPS verification expert wins Air Force young investigator research award

Taylor T. Johnson, an assistant professor of computer science, computer engineering, and electrical engineering, has been recognized with an early career award from the Air Force Office of Scientific Research. He will receive a three-year grant to work on formal verification for cyber-physical systems (CPS) that is understandable and reusable.

Chad Mirkin receives 2017 Wilhelm Exner Medal in Austria

Northwestern University’s Chad A. Mirkin received a prestigious 2017 Wilhelm Exner Medal at an award ceremony at the Hofburg Palace in Vienna on Oct. 19. He and CERN Director-General and particle physicist Fabiola Gianotti were each recognized with a medal at the ceremony. https://news.northwestern.edu/stories/2017/october/chad-mirkin-receives-2017-wilhelm-exner-medal-in-austria/

Miniature water droplets could solve an origin-of-life riddle, Stanford researchers find

It is one of the great ironies of biochemistry: life on Earth could not have begun without water; yet water stymies some chemical reactions necessary for life itself. Now, researchers report today in Proceedings of the National Academy of Sciences, they have found a novel, even poetic solution to the so-called “water problem” in the form of miniature droplets of water, formed perhaps in the mist of a crashing ocean wave or the clouds in the sky. https://news.stanford.edu/2017/10/20/miniature-droplets-solve-origin-life-riddle/


Astronomers announce the first observation of the collision of neutron stars and birth of a Blue Kilonova



AFRL, Harvard researchers invent new method of hybrid 3-D printing for flexible electronics

A collaboration between scientists at the Air Force Research Laboratory and the Wyss Institute for Biologically Inspired Engineering at Harvard University has resulted in a new method for digital design and printing of stretchable, flexible electronics. The process, called Hybrid 3-D printing, uses additive manufacturing to integrate soft, conductive inks with a material substrate to create stretchable, wearable electronic devices. http://www.wpafb.af.mil/News/Article-Display/Article/1345097/afrl-harvard-researchers-invent-new-method-of-hybrid-3-d-printing-for-flexible/


Jeff Eldredge selected as APS Fellow

Eldredge, Jeff [2017] University of California, Los Angeles

Citation: For significant contributions to the computational and theoretical modeling of vortex dynamics including agile flight and bio-inspired locomotion, fluid-structure interaction, flow-acoustic interaction, and vortex models and particle methods. Nominated by: Division of Fluid Dynamics http://www.aps.org/programs/honors/fellowships/archive-all.cfm

Lou Cattafesta selected as APS Fellow

Cattafesta, Lou [2017] Florida State University

Citation: For seminal contributions in active flow control and aeroacoustics, including real-time closed-loop control, design tools for actuators and micro-electro-mechanical flow sensors, design and characterization of unique aeroacoustic facilities, and phased-array beamforming methods. Nominated by: Division of Fluid Dynamics http://www.aps.org/programs/honors/fellowships/archive-all.cfm

Mihailo Jovanovic selected as APS Fellow

Jovanovic, Mihailo R. [2017] University of Southern California

Citation: For profound contributions to stability and flow control, and the application of control-theoretic and optimization techniques to the analysis of wall-bounded shear flows, drag reduction, and viscoelastic fluids. Nominated by: Division of Fluid Dynamics http://www.aps.org/programs/honors/fellowships/archive-all.cfm

Long nanotubes make strong fibers

The Rice lab of chemist and chemical engineer Matteo Pasquali, which demonstrated its pioneering method to spin carbon nanotube into fibers in 2013, has advanced the art of making nanotube-based materials with two new papers in the American Chemical Society’s ACS Applied Materials and Interfaces. https://engineering.rice.edu/long_nantubes

Vibrating nanoparticles interact

Like a tuning fork struck with a mallet, tiny gold nanodisks can be made to vibrate at resonant frequencies when struck by light. In new research, Rice University researchers showed they can selectively alter those vibrational frequencies by gathering different-sized nanodisks into groups. https://engineering.rice.edu/vibrating_nanoparticles