Are Si/SiGe tunneling field-effect transistors a good idea?
Steven J. Koester, Isaac Lauer, et al.
ECS Transactions
A fracture-based layer transfer technique referred to as controlled spalling was used to separate a conventional InGaN/GaN multiple quantum well light-emitting diode (LED) structure from a 50mm sapphire wafer enabling the formation of vertical spalled LEDs (SLEDs). A 25-μm-thick tensile Ni layer was electrodeposited on the surface of the wafer, followed by the application of a polyimide tape layer. By mechanically guiding the tape layer, a 3-μm-thick layer of the LED epitaxy was removed. Transmission electron microscopy imaging indicated that spalling preserved the quality of the epitaxial layers, and electroluminescence verifies the operation of the SLED. © 2013 The Japan Society of Applied Physics.
Steven J. Koester, Isaac Lauer, et al.
ECS Transactions
Judson R. Holt, Anita Madan, et al.
Journal of Applied Physics
Martin M. Frank, Eduard A. Cartier, et al.
ECS Solid State Letters
Can Bayram, K.-T. Shiu, et al.
SPIE OPTO 2013