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Grafoid Inc. and Rutgers University to jointly develop and commercialize polymer and non-polymer technology graphene applications

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and Rutgers University AMIPP Advanced Polymer Center signed a memorandum of understanding (MOU) to develop jointly graphene technology applications related to both polymer and non-polymer applications. One of its aims is to set a universal standard for the mass production of graphene for industrial applications.

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Researchers develop shape-memorized current collector to brake battery thermal runaway

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Researchers from Renmin University and Tsinghua University in China have developed a novel shape-memorized current collector (SMCC), which can successfully brake battery thermal runaway at the battery internal overheating status. A paper on their work is published in the ACS journal Nano Letters. At around 197 ?F, 2c03645.

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Self-healing polymer wrapper enables longer cycle life in silicon anodes for Li-ion batteries

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Top: The stress of repeated swelling and shrinking shatters a conventional silicon electrode and its polymer binding. Bottom: An electrode coated with stretchy, self-healing polymer remains intact. (C. 1 for Li 15 Si 4 at room temperature)—almost ten times that of commercialized graphite anodes. Wang et al.,

Li-ion 230
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Colorado State University Spinoff to Commercialize 3D Li-ion Battery Technology for Higher-Capacity, Longer-Life Cells

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She again uses electrodeposition to coat these tiny structures with a polymer electrolyte. Credit: ACS. Click to enlarge. Using an electrodeposition process, Dr. Prieto grows nanowires that make up the first key piece of the battery, the anode. Proposed architecture of the Prieto battery. Source: CSU. Click to enlarge.

Li-ion 319
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Polymer-dipped carbon nanotube catalysts equal or outperform platinum catalysts in fuel cells; potential for significant cost reduction

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Researchers at Case Western University have developed catalysts made of carbon nanotubes dipped in a polymer solution that equal the energy output and otherwise outperform platinum catalysts in fuel cells. Credit: ACS, Wang et al. Click to enlarge. A paper on their work is published in the Journal of the American Chemical Society.

Polymer 270
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UCSD team offers roadmap of four challenges for solid-state battery commercialization

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In an open-access review paper published in Nature Nanotechnology , researchers at the University of California San Diego offer a research roadmap that includes four challenges that need to be addressed in order to advance all-solid-state batteries to commercialization. For all-solid-state batteries, this is immensely challenging.

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Heat-conducting polymer cools hot electronic devices at 200 C; potential for automotive applications

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A team led by researchers from Georgia Tech have used an electropolymerization process to produce aligned arrays of polymer nanofibers that function as a thermal interface material able to conduct heat 20 times better than the original polymer. Virendra Singh, a research scientist in the George W. —Baratunde Cola.

Polymer 230