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A team of interdisciplinary researchers at Rensselaer Polytechnic Institute has developed a new method for significantly increasing the heat transfer rate across two different materials. By sandwiching a layer of ultrathin “nanoglue” between copper and silica, the research team demonstrated a four-fold increase in thermal conductance at the interface between the two materialshttps://zmi.led-professional.com/Plone/media/technology_thermal-management_nature-materials-study-boosting-heat-transfer-with-nanoglue-might-also-improve-led-cooling_Boosting%20Heat%20Transfer%20With%20Nanoglue.jpg/viewhttps://zmi.led-professional.com/Plone/media/technology_thermal-management_nature-materials-study-boosting-heat-transfer-with-nanoglue-might-also-improve-led-cooling_Boosting%20Heat%20Transfer%20With%20Nanoglue.jpg/@@images/image-1200-5b198d28301947172ba844992dea1653.jpeg
A team of interdisciplinary researchers at Rensselaer Polytechnic Institute has developed a new method for significantly increasing the heat transfer rate across two different materials. By sandwiching a layer of ultrathin “nanoglue” between copper and silica, the research team demonstrated a four-fold increase in thermal conductance at the interface between the two materials
