TED, Penn State and a makerspace in Ghana
The inability to alter intrinsic piezoelectric behavior in organic polymers hampers their application in flexible, wearable and biocompatible devices, according to researchers at Penn State and North Carolina State University, but now a molecular approach can improve those piezoelectric properties.
New insight into how a certain class of photovoltaic materials allows efficient conversion of sunlight into electricity could position these materials to replace traditional silicon solar cells. A study by researchers at Penn State reveals the unique properties of these inexpensive and quick-to-produce halide perovskites, information that will guide the development of next generation solar cells. The study appears September 27 in the journal Chem.
There is a scrapyard in Accra, Ghana, known as "Agbogbloshie," where e-waste goes to die — at least, that is the way it has been misrepresented and misunderstood by those on the outside. Penn State faculty members DK Osseo-Asare and Yasmine Abbas have spent years working with urban miners — scrap dealers and grassroots makers in and around Agbogbloshie — to tell a more complete story and co-develop strategies for interweaving design innovation into the circular economy of West Africa.
Penn State faculty members DK Osseo-Asare and Yasmine Abbas have spent years working with urban miners — scrap dealers and grassroots makers in and around Agbogbloshie — to tell a more complete story and co-develop strategies for interweaving design innovation into the circular economy of West Africa.
The development of thermal analogues to electrical devices (diodes, transistors, etc) and the potential of integrated thermal systems is the next frontier in nano/micro scale thermal transport. This exciting new area of research represents uncharted territory for the thermal sciences community where until now, the primary objectives for controlling the flow of heat have been focused on fixing the properties of a material or interface to (a) be as conductive or resistive as possible and (b) maintain these properties both over time and under a variety of environmental conditions. My presentation will encompass a survey of the existing research on thermal diodes and transistors to date, as well as a perspective on future material/device architectures and other electrical-analogs including detectors and interconnects.
“Mozart: The Operatic and the Sprightly”
Wolfgang Amadeus Mozart’s music has spanned generations and still permeates society today. While most people are familiar with the stately elegance of his music, fewer understand just how many distinct styles Mozart could convey. Today we will perform a slow movement (Andante) and a fast movement (Allegro) from his C major string quintet, K. 515 composed in 1787. Mozart’s lyrical gift, heard most often in his operas, is heard also in the slow movement of this quintet. His ability to conjure drama through melody and harmony is apparent in the tender duet shared between the violin and the viola. In the fast movement, Mozart’s brilliance and sparkle conveys a sense of perpetual energy, culminating in a dramatic unison ending fit for royalty.
Penn State’s investment in its interdisciplinary research institutes, including the Materials Research Institute (MRI), has created a culture of strong collaborations across disciplines. At Penn State, many researchers have the support of both their academic departments and the university-wide institutes, such as MRI. By encouraging crosscutting research, MRI and its sister institutes open up traditional silos of knowledge to the stimulus of other viewpoints and new ideas. This mingling of disciplines, often called “convergence,” brings together the physical and life sciences with engineering and computation to solve the most complex problems facing society today and in the future.
The 2DCC-MIP is focused on advancing the synthesis of 2D materials within the context of a national user facility.
The Materials Characterization Lab (MCL) is a fully-staffed, open access, analytical research facility charged with enabling research and educating the next generation of highly qualified researchers.
Our primary goal is to support internal and external users working in computer-based simulations of materials across the various length and time scales.
In the latest issue of Focus on Materials, the boundaries between materials science, engineering, and the life sciences are blurring. We offer a glimpse into the fascinating world of “convergence,” where the future of healthcare lies.
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