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Electrothermal Interface Material Enhancer on Thin Flexible Substrates

总结

Researchers at Purdue University have developed a process that does not require either chemicals or high temperatures to bond CNTs to an opposite surface; they can even bond to glass. This breakthrough results in better contact for both improved heat transfer and electrical conduction. Increased heat transfer increases heat sync efficiency, allowing devices to operate at lower temperatures. This method of applying CNTs allows use on materials that would have been damaged by older, limited, inefficient application techniques.

技术优势

Increased contact with surface More efficient heat transfer

技术应用

Processor chips or integrated circuit devices Connected electrical devices that require electricity to pass between the devices

详细技术说明

Timothy FisherNanoscale Transport Research GroupPurdue Mechanical Engineering

国家

United States

申请号码

8,919,428

国家/地区

美国

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