Wide-bandgap semiconductor materials: For their full bloom

Abstract: Wide-bandgap semiconductors are expected to be applied to solid-state lighting and power devices, supporting a future energy-saving society. While GaN-based white LEDs have rapidly become widespread in the lighting industry, SiC-and GaN-based power devices have not yet achieved their popular use, like GaN-based white LEDs for lighting, despite having reached the practical phase.What are the issues to be addressed for such power devices? In addition, other wide-bandgap semiconductors such as diamond and oxides … Show more

“…[1][2][3] GaN growth on a Si substrate is one of the most useful methods for providing large-area GaN wafers at a low cost. [4][5][6][7][8] As aresult of several breakthroughs, 9,10 an AlGaN/GaN HEMT on Si demonstrated a breakdown voltage of over 1400 V. 10 Unfortunately, the large lattice and thermal expansion mismatches between Si and GaN produce high-density dislocations in a GaN layer. [11][12][13] Decreasing the dislocation density in a GaN layer has been a major issue because the dislocations are considered to deteriorate the reliability and life of devices.…”

Analysis of reaction between c+a and -c+a dislocations in GaN layer grown on 4-inch Si(111) substrate with AlGaN/AlN strained layer superlattice by transmission electron microscopy

“…[1][2][3] GaN growth on a Si substrate is one of the most useful methods for providing large-area GaN wafers at a low cost. [4][5][6][7][8] As aresult of several breakthroughs, 9,10 an AlGaN/GaN HEMT on Si demonstrated a breakdown voltage of over 1400 V. 10 Unfortunately, the large lattice and thermal expansion mismatches between Si and GaN produce high-density dislocations in a GaN layer. [11][12][13] Decreasing the dislocation density in a GaN layer has been a major issue because the dislocations are considered to deteriorate the reliability and life of devices.…”

Analysis of reaction between c+a and -c+a dislocations in GaN layer grown on 4-inch Si(111) substrate with AlGaN/AlN strained layer superlattice by transmission electron microscopy

“…Gallium nitride (GaN) and related III-nitride semiconductor alloys represent the dominating technology in solid-state lighting (SSL) for fabrication of light-emitting diodes (LED), laser diodes (LD), and power devices [1][2][3][4]. These devices are usually fabricated on sapphire or silicon carbide (SiC) substrates.…”

“…Another ceramic material with a similar property envelope as ZrB 2 is the NaCl structured (B1) TiN, with a moderate lattice mismatch of 6% to GaN and with a work function matched to the Fermi level of n-GaN for forming a low-resistant ohmic contact [10]. An additional advantage for ZrB 2 and TiN as electrodes in optoelectronic devices is that…”

Magnetron Sputter Epitaxy of High-Quality GaN Nanorods on Functional and Cost-Effective Templates/Substrates

“…A particular attention has been devoted in the literature to the wide-gap semiconductor alloys for applications in the fields of optical devices technology [1,2]. Several authors have investigated different kinds of materials in order to search for the desired parameters, such as band-gap, lattice constant, dielectric constant and carrier mobility [3][4][5][6].…”

Electronic and optical properties of ternary alloys Zn_xCd_1−xS, Zn_xCd_1−xSe, ZnS_xSe_1−x, Mg_xZn_1−xSe