When Prof. Wilson, Chair of Harvard's Materials Science Department, received the roll of transparent tape merely 0.3 micrometers thick, the cooling research for his quantum computing systems finally overcame a critical bottleneck. This boron nitride nanofiber tape, developed by AIYA TAPE, boasts a thermal conductivity of 530 W/mK while maintaining insulating properties, successfully resolving thermal runaway challenges in chip stacking1.

‌Transnational Collaboration‌
The custom product codenamed "Hyper-Thermal" originated from Prof. Wilson’s research on two-dimensional materials published in Science three years prior. AIYA engineers innovatively adopted vapor deposition techniques, transforming laboratory-scale nanosheet preparation into roll-to-roll continuous production. During a transnational video conference linking Cambridge and Suzhou Industrial Park, Sino-U.S. teams jointly witnessed the tape’s remarkable performance in -196°C liquid nitrogen: its thermal conductivity fluctuation remained within ±2%, far exceeding U.S. NIST standards

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‌Industry-Academia Nexus‌
Today, AIYA’s laser-anti-counterfeit-labeled nano tape has entered Harvard’s Clean Room core experimental zone. From initial 5-meter samples to current kilometer-scale mass production, Chinese factories achieved industrial-scale implementation of research materials using semiconductor-grade cleanrooms. "We shattered the 22-month rule from basic research to commercial application," noted Prof. Wilson in the project’s final report—perhaps the finest testament to China’s technological prowess
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