Brain-Inspired Computing Could Tackle Big Problems In A Small Way
Penn State researchers have designed a 2D device that can provide more than yes-or-no answers and could be more brainlike than current computing architectures.
Penn State researchers have designed a 2D device that can provide more than yes-or-no answers and could be more brainlike than current computing architectures.
A new research partnership with Pennsylvania State University and the University of Sheffield aims to promote more sustainable supply chains to meet US policy standards.
The novelist Jonathan Franzen published an article in which he essentially gave up on the prospect of controlling the emission of greenhouse gases into the atmosphere.
A new liquid-cell technology allows scientists to see biological materials and systems in three dimensions under an electron microscope (EM).
A better understanding of the mechanisms behind the cold sintering process (CSP) will lead to faster adoption and the cold sintering of many new materials.
Researchers at Penn State and Delaware have developed a theoretical method to improve the efficiency of thin-film solar cells by up to 33 percent.
Next-generation solar cells that mimic photosynthesis with biological material may give new meaning to the term "green technology."
A new technique to change the structure of liquid crystals could lead to the development of fast-responding liquid crystals suitable for next generation displays.
Microscopic tiny swimmers shaped like donuts promise a wide range of application options: Fabricated with Nanoscribe’s 3D Microfabrication technology, they can move with their own propulsion and are able to transport particles to a desired location.
Penn State team has developed a robust bio-inspired, liquid, sludge- and bacteria-repellent coating that can essentially make a toilet self-cleaning