公开(公告)号：US5834379A

公开(公告)日：1998-11-10

申请号：US680874

申请日：1996-07-16

申请人： James R. Shealy ,  James R. Engstrom ,  Yu-Hwa Lo

发明人： James R. Shealy ,  James R. Engstrom ,  Yu-Hwa Lo

IPC分类号： C23C8/36 ,  C23C11/08

CPC分类号： C23C8/36

摘要： A process for synthesizing wide band gap materials, specifically, GaN, employs plasma-assisted and thermal nitridation with NH.sub.3 to convert GaAs to GaN. Thermal assisted nitridation with NH.sub.3 can be employed for forming layers of substantial thickness (on the order of 1 micron) of cubic and hexagonal GaN on a GaAs substrate. Plasma-assisted nitridation of NH.sub.3 results in formation of predominantly cubic GaN, a form particularly useful in optoelectronic devices. Preferably, very thin GaAs membranes are employed to permit formation thereon of GaN layers of any desired thickness without concern for critical thickness constraints. The thin membranes are preferably formed either with an epitaxial bonding technique, or by undercut etching.

摘要翻译： 用于合成宽带隙材料，特别是GaN的方法采用NH 3等离子体辅助和热氮化将GaAs转化为GaN。 使用NH 3的热辅助氮化可用于在GaAs衬底上形成基本上厚度（约1微米）的立方体和六边形GaN的层。 NH 3的等离子体辅助氮化导致主要形成立方GaN，这是在光电器件中特别有用的形式。 优选地，使用非常薄的GaAs膜以允许在其上形成任何所需厚度的GaN层，而不考虑临界厚度限制。 薄膜优选地通过外延键合技术或通过底切蚀刻来形成。

公开(公告)号：US09299821B2

公开(公告)日：2016-03-29

申请号：US13389127

申请日：2011-06-22

申请人： James R. Shealy ,  Richard Brown

发明人： James R. Shealy ,  Richard Brown

IPC分类号： H01L21/02 ,  H01L29/778 ,  H01L23/29 ,  H01L29/66 ,  H01L23/31 ,  H01L29/10 ,  H01L29/20

CPC分类号： H01L29/778 ,  H01L21/02381 ,  H01L23/291 ,  H01L23/3171 ,  H01L29/1066 ,  H01L29/2003 ,  H01L29/66431 ,  H01L29/66462 ,  H01L29/7786 ,  H01L2924/0002 ,  H01L2924/00

摘要： A gated III-V semiconductor structure and a method for fabricating the gated III-V semiconductor structure includes a threshold modifying dopant region within a III-V semiconductor barrier layer at the base of an aperture through a passivation layer that otherwise passivates the III-V semiconductor barrier layer. The passivation layer, which may comprise an aluminum-silicon nitride material, has particular bandgap and permittivity properties that provide for enhanced performance of a III-V semiconductor device that derives from the III-V semiconductor structure absent a field plate. The threshold modifying dopant region provides the possibility for forming both an enhancement mode gated III-V semiconductor structure and a depletion mode III-V semiconductor structure on the same substrate. The threshold modifying dopant region when comprising a magnesium (Mg) threshold modifying dopant may be incorporated into the gates III-V semiconductor structure using a dicyclopentadienyl magnesium (Cp2Mg) vapor diffusion method or a magnesium-silicon nitride (MgSiN) solid state diffusion method.

摘要翻译： 门III-V半导体结构和用于制造栅极III-V半导体结构的方法包括在通过钝化层的孔底部的III-V半导体阻挡层内的阈值修改掺杂剂区域，否则钝化层III-V 半导体阻挡层。 可以包括铝 - 氮化硅材料的钝化层具有特定的带隙和介电常数特性，其提供了不存在场板的III-V半导体结构的III-V半导体器件的增强的性能。 阈值修改掺杂剂区域提供在同一衬底上形成增强模式门控III-V半导体结构和耗尽型III-V半导体结构的可能性。 使用二环戊二烯基镁（Cp2Mg）蒸气扩散法或镁 - 氮化硅（MgSiN）固态扩散法可以将包含镁（Mg）阈值修饰掺杂剂的阈值修饰掺杂剂区域结合到栅极III-V半导体结构中。

公开(公告)号：US09306050B2

公开(公告)日：2016-04-05

申请号：US13380104

申请日：2010-06-28

申请人： James R. Shealy ,  Richard Brown

发明人： James R. Shealy ,  Richard Brown

IPC分类号： H01L29/778 ,  H01L23/29 ,  H01L23/31 ,  H01L29/423 ,  H01L29/66 ,  H01L29/20

CPC分类号： H01L29/7787 ,  H01L21/02145 ,  H01L21/02271 ,  H01L21/318 ,  H01L23/291 ,  H01L23/3171 ,  H01L29/2003 ,  H01L29/42316 ,  H01L29/66462 ,  H01L29/7786 ,  H01L2924/0002 ,  H01L2924/00

摘要： A semiconductor structure includes a semiconductor layer that is passivated with an aluminum-silicon nitride layer. When the semiconductor layer in particular comprises a III-V semiconductor material such as a group III nitride semiconductor material or a gallium nitride semiconductor material, the aluminum-silicon nitride material provides a superior passivation in comparison with a silicon nitride material.

摘要翻译： 半导体结构包括用铝 - 氮化硅层钝化的半导体层。 当半导体层特别地包括诸如III族氮化物半导体材料或氮化镓半导体材料的III-V半导体材料时，与氮化硅材料相比，提供了优异的钝化。

公开(公告)号：US5003548A

公开(公告)日：1991-03-26

申请号：US247206

申请日：1988-09-21

申请人： David P. Bour ,  James R. Shealy

发明人： David P. Bour ,  James R. Shealy

IPC分类号： H01S5/34 ,  H01S5/343

CPC分类号： B82Y20/00 ,  H01S5/34326 ,  H01S5/3409

摘要： Single quantum well short wavelength AlGaInP GRIN-SCH semiconductor lasers having high output power in the 660-680 nm range were prepared by organometallic vapor phase epitaxy. The laser active region preferably consists of a 100 .ANG. single Ga.sub.0.5 In.sub.0.5 P quantum well and 1600 .ANG. graded index regions on both sides of the well. The graded index regions were produced by lattice-matched graded composition (Al.sub.y Ga.sub.1-y).sub.0.5 In.sub.0.5 P quaternary alloys where y has a value from about 0.2 to 0.6. This structure reduces the broad-area threshold current compared to a double heterostructure laser to give pulsed thresholds as low as 1050 A/cm.sup.2. Total pulsed power of 1.4 W at 658 nm is available from an 80 .mu.m.times.300 .mu.m mesa-stripe laser. A differential quantum efficiency of up to about .about.56% was measured. Indicated uses include diode-pumped solid state laser applications and as a light source in optical disk drives and holographic scanners.

摘要翻译： 通过有机金属气相外延制备在660-680nm范围内具有高输出功率的单量子阱短波长AlGaInP GRIN-SCH半导体激光器。 激光有源区优选由井的两侧上的100个ANGSTROM单个Ga0.5In0.5P量子阱和1600个ANGSTROM分级索引区组成。 渐变折射率区域由晶格匹配的梯度组成（AlyGa1-y）0.5In0.5P四元合金制成，其中y具有约0.2至0.6的值。 与双异质结构激光器相比，该结构减小了宽区域阈值电流，以提供低至1050A / cm 2的脉冲阈值。 在658nm处的总脉冲功率为1.4W，可从80μm×300μm的台面条纹激光器获得。 测量高达约差异量子效率的差分量子效率为56％。 指示用途包括二极管泵浦固态激光器应用以及作为光盘驱动器和全息扫描器中的光源。

公开(公告)号：US4564509A

公开(公告)日：1986-01-14

申请号：US509871

申请日：1983-06-30

申请人： James R. Shealy ,  Lester F. Eastman

发明人： James R. Shealy ,  Lester F. Eastman

IPC分类号： B01D53/18 ,  B01D53/26 ,  B01J10/00 ,  C01B3/52 ,  C01B6/06 ,  C01B6/10 ,  C01B6/34 ,  C01B7/07 ,  C01B17/16 ,  C01B17/45 ,  C01B19/00 ,  C01B19/04 ,  C01B21/04 ,  C01B25/06 ,  C01B25/10 ,  C01B33/04 ,  C01B33/107 ,  C01B35/06 ,  C01C1/02 ,  C01G19/08 ,  C01G28/00 ,  C07F5/00 ,  C30B25/02 ,  B01D47/02

CPC分类号： C30B25/02 ,  C01B17/168 ,  C01B19/00 ,  C01B19/04 ,  C01B21/0411 ,  C01B25/06 ,  C01B25/10 ,  C01B3/52 ,  C01B33/046 ,  C01B33/10778 ,  C01B35/061 ,  C01B6/06 ,  C01B6/065 ,  C01B6/10 ,  C01B6/34 ,  C01B7/07 ,  C01B7/0706 ,  C01B7/0743 ,  C01C1/024 ,  C01G19/08 ,  C01G28/007 ,  C07F5/00 ,  C01B2203/0415 ,  C01B2203/0465 ,  C01B2203/0495 ,  C01B2210/0043 ,  C01P2002/84 ,  C01P2006/80

摘要： A method of removing oxygen and water vapor and other oxygen bearing gas species from reactant gases comprising the use of an appropriate solution containing an active gettering metal, selected from the group of aluminum, magnesium, calcium and lithium in liquid phase through a moderate temperature range, including room temperature and above as an oxygen gettering step, through the formation of an oxide of said metal wherein the said metal becomes continuously available for oxidation by exposing the said unreacted metal to the gas by bubbling the reactant gas through a ternary melt of gallium-indium and the said metal in a nonreactive container and maintaining in solid phase an excess of the active gettering method so that the capacity for removing the oxygen and water vapor and other oxygen bearing gas species may be extended by the active metal going into solution in the melt from the solid as the metal oxide is formed and goes out of solution.

摘要翻译： 一种从反应气体中除去氧气和水蒸汽等含氧气体物质的方法，包括使用含有选自铝，镁，钙和锂的活性吸气金属的合适溶液，液相中的中等温度范围 ，包括室温以上作为吸氧步骤，通过形成所述金属的氧化物，其中所述金属通过将反应气体鼓泡通过镓的三元熔体而使所述未反应的金属暴露于气体中而连续可用于氧化 所述金属在非反应性容器中并保持固相过量的主动吸气方法，使得除去氧气和水蒸汽等含氧气体物质的能力可以通过进入溶液中的活性金属来延长 形成作为金属氧化物的固体的熔体，并从溶液中脱出。

公开(公告)号：US08791034B2

公开(公告)日：2014-07-29

申请号：US13380144

申请日：2010-06-28

申请人： James R. Shealy ,  Richard Brown

发明人： James R. Shealy ,  Richard Brown

IPC分类号： H01L21/318 ,  H01L21/443

CPC分类号： H01L21/318 ,  C23C16/34 ,  H01L21/02145 ,  H01L21/02271

摘要： A chemical vapor deposition method for forming an aluminum-silicon nitride layer upon a substrate uses an aluminum precursor, a silicon precursor and a nitrogen precursor under chemical vapor deposition conditions to deposit the aluminum-silicon nitride layer upon the substrate. The aluminum-silicon nitride layer has an index of refraction interposed between silicon nitride and aluminum nitride. The aluminum-silicon nitride layer also has a bandgap from about 4.5 to about 6 eV and a permittivity from about 6×10^-11 to about 8×10^-11 F/m. The aluminum-silicon nitride layer may be further thermally annealed to reduce a hydrogen content of the aluminum-silicon nitride layer.

摘要翻译： 用于在基板上形成铝 - 氮化硅层的化学气相沉积方法在化学气相沉积条件下使用铝前体，硅前驱体和氮前体，以将铝 - 氮化硅层沉积在基底上。 铝硅氮化物层具有置于氮化硅和氮化铝之间的折射率。 铝 - 氮化硅层还具有约4.5至约6eV的带隙，介电常数约为6×10 ^ -11至约8×10 ^ -11F / m。 铝 - 氮化硅层可进一步热退火以降低铝 - 氮化硅层的氢含量。

公开(公告)号：US20120153301A1

公开(公告)日：2012-06-21

申请号：US13380104

申请日：2010-06-28

申请人： James R. Shealy ,  Richard Brown

发明人： James R. Shealy ,  Richard Brown

IPC分类号： H01L29/16 ,  H01L29/778 ,  H01L29/78 ,  H01L29/20

CPC分类号： H01L29/7787 ,  H01L21/02145 ,  H01L21/02271 ,  H01L21/318 ,  H01L23/291 ,  H01L23/3171 ,  H01L29/2003 ,  H01L29/42316 ,  H01L29/66462 ,  H01L29/7786 ,  H01L2924/0002 ,  H01L2924/00

摘要： A semiconductor structure includes a semiconductor layer that is passivated with an aluminum-silicon nitride layer. When the semiconductor layer in particular comprises a III-V semiconductor material such as a group III nitride semiconductor material or a gallium nitride semiconductor material, the aluminum-silicon nitride material provides a superior passivation in comparison with a silicon nitride material.

摘要翻译： 半导体结构包括用铝 - 氮化硅层钝化的半导体层。 当半导体层特别地包括诸如III族氮化物半导体材料或氮化镓半导体材料的III-V半导体材料时，与氮化硅材料相比，提供了优异的钝化。

公开(公告)号：US4343015A

公开(公告)日：1982-08-03

申请号：US149936

申请日：1980-05-14

申请人： Bantval J. Baliga ,  James R. Shealy

发明人： Bantval J. Baliga ,  James R. Shealy

IPC分类号： H01L21/338 ,  H01L29/10 ,  H01L29/423 ,  H01L29/812

CPC分类号： H01L29/66856 ,  H01L29/1025 ,  H01L29/42316 ,  H01L29/8122

摘要： Improved high frequency GaAs FETs have a higher breakdown voltage, lower input gate capacitance and lower source (or drain) resistance. A preferentially etched groove structure yields parallel trapezoidal semiconductor fingers that are wider at the top than at the bottom. Every finger intersects a high resistivity, semi-insulating region which surrounds the active device area and is fabricated by high energy particle bombardment. Metal gates are deposited within the grooves on three sides of the trapezoidal fingers.

摘要翻译： 改进的高频GaAs FET具有更高的击穿电压，较低的输入栅极电容和较低的源极（或漏极）电阻。 优先蚀刻的凹槽结构产生在顶部比底部更宽的平行梯形半导体指状物。 每个指状物与围绕有源器件区域的高电阻率半绝缘区域相交，并且通过高能量粒子轰击制造。 金属门沉积在梯形手指三侧的槽内。

公开(公告)号：US09991360B2

公开(公告)日：2018-06-05

申请号：US13380150

申请日：2010-06-28

申请人： James R. Shealy ,  Richard Brown

发明人： James R. Shealy ,  Richard Brown

IPC分类号： H01L29/66 ,  H01L21/02 ,  H01L21/318 ,  H01L29/20 ,  H01L29/778 ,  A61K38/48 ,  C12N9/64 ,  H01L23/29 ,  H01L23/31 ,  H01L29/423 ,  A61K38/00

CPC分类号： H01L29/7787 ,  H01L21/02145 ,  H01L21/02271 ,  H01L21/318 ,  H01L23/291 ,  H01L23/3171 ,  H01L29/2003 ,  H01L29/42316 ,  H01L29/66462 ,  H01L29/7786 ,  H01L2924/0002 ,  H01L2924/00

摘要： A method for fabricating a semiconductor structure includes forming a semiconductor layer over a substrate and forming an aluminum-silicon nitride layer upon the semiconductor layer. When the semiconductor layer in particular comprises a III-V semiconductor material such as a group III nitride semiconductor material or a gallium nitride semiconductor material, the aluminum-silicon nitride material provides a superior passivation in comparison with a silicon nitride material.

公开(公告)号：US20130153963A1

公开(公告)日：2013-06-20

申请号：US13389127

申请日：2011-06-22

申请人： James R. Shealy ,  Richard Brown

发明人： James R. Shealy ,  Richard Brown

IPC分类号： H01L29/778 ,  H01L29/66

CPC分类号： H01L29/778 ,  H01L21/02381 ,  H01L23/291 ,  H01L23/3171 ,  H01L29/1066 ,  H01L29/2003 ,  H01L29/66431 ,  H01L29/66462 ,  H01L29/7786 ,  H01L2924/0002 ,  H01L2924/00

摘要： A gated III-V semiconductor structure and a method for fabricating the gated III-V semiconductor structure includes a threshold modifying dopant region within a III-V semiconductor barrier layer at the base of an aperture through a passivation layer that otherwise passivates the III-V semiconductor barrier layer. The passivation layer, which may comprise an aluminum-silicon nitride material, has particular bandgap and permittivity properties that provide for enhanced performance of a III-V semiconductor device that derives from the III-V semiconductor structure absent a field plate. The threshold modifying dopant region provides the possibility for forming both an enhancement mode gated III-V semiconductor structure and a depletion mode III-V semiconductor structure on the same substrate. The threshold modifying dopant region when comprising a magnesium (Mg) threshold modifying dopant may be incorporated into the gates III-V semiconductor structure using a dicyclopentadienyl magnesium (Cp2Mg) vapor diffusion method or a magnesium-silicon nitride (MgSiN) solid state diffusion method.

摘要翻译： 门III-V半导体结构和用于制造栅极III-V半导体结构的方法包括在通过钝化层的孔底部的III-V半导体阻挡层内的阈值修改掺杂剂区域，否则钝化层III-V 半导体阻挡层。 可以包括铝 - 氮化硅材料的钝化层具有特定的带隙和介电常数特性，其提供了不存在场板的III-V半导体结构的III-V半导体器件的增强的性能。 阈值修改掺杂剂区域提供在同一衬底上形成增强模式门控III-V半导体结构和耗尽型III-V半导体结构的可能性。 使用二环戊二烯基镁（Cp2Mg）蒸气扩散法或镁 - 氮化硅（MgSiN）固态扩散法可以将包含镁（Mg）阈值修饰掺杂剂的阈值修饰掺杂剂区域结合到栅极III-V半导体结构中。