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Due to its excellent bioactivity, bioactive glass (BG) is suitable for use as bone graft substitutes in biomedical applications. In this study, carbon nanotubes (CNT‐COOH) served as templates for depositing bioactive glass based on 60SiO2–36CaO–4P2O5 wt.% were synthesized via the solgel process. The BG and BG/CNT‐COOH composites were treated at 300, 500, 700, and 900°C; their properties were also...
Robust and reliable interconnect and effective heat management are two major concerns in the high-speed and highpower integrated circuit. Carbon nanotube (CNT) exhibits amazing mechanical, thermal and electronic properties due to the unique structure. Those superior features make CNTs preferable and promising for application in electronic components and devices. In the present paper, carbon nanotube...
With the minimization development of electronic devices and products, nanotechnology and nanomaterials are widely applied in different fields of electronic packaging. Carbon nanotube (CNT) is an ideal material due to its excellent electrical and thermal conductivities. In the present paper, the application of CNT bundles as chip bumps was experimentally investigated. The electrical resistances of...
The current development of electronic products towards miniaturization and multifunction is leading to an increase in the power density of chip and IC. The high power consumption and corresponding heat dissipation are two of the most serious limitations for high performance electronics. The combination of the carbon nanotube (CNT) with outstanding thermal properties with an air jet cooling provides...
With the continuously increasing packaging density, the corresponding techniques for heat dissipation are vital to high performance components. During the system operation, the heat generated by components must be efficiently transferred outside of the electronic package. To meet the heat removal requirement of the electronic devices with a high power, several liquid cooling schemes have been suggested,...
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