(June 3, 2016) Because electronics have shrunk significantly in recent years, the solutions to cool them must be adjusted. Electropages.com suggests “a case-specific analysis must be performed as each application is subject to different circumstances,” to determine the right strategy for cooling electronics. This analysis is called “CFD analysis,” or computational fluid … [Read more...]
New Method for Doping Single Crystals of Diamond Discovered
(May 24, 2016) Researchers at the University of Wisconsin-Madison have recently introduced a new method for doping to bring diamonds a step further as semiconductors. Doping is a “process in which other elements are integrated into the semiconductor to change its properties,” explained Phys.org, and “because of diamond's rigid crystalline structure, doping is difficult.” But … [Read more...]
Thermoelectric Modules That Achieve Higher Heat Flux Densities For Cooling Industrial Lasers
Laird has recently developed a high heat flux density thermoelectric module (TEM) designed to achieve a higher heat pumping capacity than standard TEMs, called UltraTEC. “The UltraTEC Series TEM has a heat pumping capacity up to 340 watts, which is ideal for larger cooling applications with limited surface area such as industrial lasers,” claimed Laird. It also has a “precise … [Read more...]
Self-Healable Electronic Material That Can Help Prevent Overheating
(May 16, 2016) A new, more durable electronic material has recently been created to repair itself and heal all its functionality even after breaking several times. Phys.org detailed, “Self-healable materials are those that, after withstanding physical deformation such as being cut in half, naturally repair themselves with little to no external influence.” “Researchers have … [Read more...]
Potential Electronics Cooling Application of Carbon Nanotubes
(April 21st, 2016) A technique has been found that could allow carbon nanotubes to be used in electronic cooling and as devices in microchips, sensors and circuits in the future. Phys.org reported that the technique “uses a laser and electrical current to precisely position and align carbon nanotubes” to make it a “potential new tool for creating electronic devices out of the … [Read more...]
- « Previous Page
- 1
- …
- 13
- 14
- 15
- 16
- 17
- …
- 40
- Next Page »