A conductive C-plane GaN substrate has a resistivity of 2×10.sup.−2 Ω.Math.cm or less or an n-type carrier concentration of 1×10.sup.18 cm.sup.−3 or more at room temperature. At least one virtual line segment with a length of 40 mm can be drawn at least on one main surface of the substrate. The line segment satisfies at least one of the following conditions (A1) and (B1): (A1) when an XRC of (004) reflection is measured at 1 mm intervals on the line segment, a maximum value of XRC-FWHMs across all measurement points is less than 30 arcsec; and (B1) when an XRC of the (004) reflection is measured at 1 mm intervals on the line segment, a difference between maximum and minimum values of XRC peak angles across all the measurement points is less than 0.2°.

A sputtering target for a gallium nitride thin film, which has a low oxygen content, a high density and a low resistivity. A gallium nitride powder having powder physical properties of a low oxygen content and a high bulk density is used and hot pressing is conducted at high temperature in high vacuum to prepare a gallium nitride sintered body having a low oxygen content, a high density and a low resistivity.

A sputtering target for a gallium nitride thin film, which has a low oxygen content, a high density and a low resistivity. A gallium nitride powder having powder physical properties of a low oxygen content and a high bulk density is used and hot pressing is conducted at high temperature in high vacuum to prepare a gallium nitride sintered body having a low oxygen content, a high density and a low resistivity.

A three-dimensional NAND flash memory structure may include solid channel cores of epitaxial silicon that are grown directly from a silicon substrate reference. The alternating oxide-nitride material layers may be formed as a stack, and a channel hole may be etched through the material layers that extends down to the silicon substrate. A tunneling layer may be formed around the channel hole to contact the alternating material layers, and an epitaxial silicon core may be grown from the silicon substrate up through the channel holes. In some implementations, support structures may be formed in channel holes or in slits of the memory array to provide physical support while the epitaxial silicon cores are grown through the channels.

A three-dimensional NAND flash memory structure may include solid channel cores of epitaxial silicon that are grown directly from a silicon substrate reference. The alternating oxide-nitride material layers may be formed as a stack, and a channel hole may be etched through the material layers that extends down to the silicon substrate. A tunneling layer may be formed around the channel hole to contact the alternating material layers, and an epitaxial silicon core may be grown from the silicon substrate up through the channel holes. In some implementations, support structures may be formed in channel holes or in slits of the memory array to provide physical support while the epitaxial silicon cores are grown through the channels.

A group III nitride crystal, wherein the group III nitride crystal is doped with an N-type dopant and a hydrogen element, and the concentration of the N-type dopant is 1×10.sup.20 cm.sup.−3 or more, and the concentration of the hydrogen element is 1×10.sup.19 cm.sup.−3 or more.

A group III nitride crystal, wherein the group III nitride crystal is doped with an N-type dopant and a hydrogen element, and the concentration of the N-type dopant is 1×10.sup.20 cm.sup.−3 or more, and the concentration of the hydrogen element is 1×10.sup.19 cm.sup.−3 or more.

The present disclosure provides a DNA-targeting RNA that comprises a targeting sequence and, together with a modifying polypeptide, provides for site-specific modification of a target DNA and/or a polypeptide associated with the target DNA. The present disclosure further provides site-specific modifying polypeptides. The present disclosure further provides methods of site-specific modification of a target DNA and/or a polypeptide associated with the target DNA The present disclosure provides methods of modulating transcription of a target nucleic acid in a target cell, generally involving contacting the target nucleic acid with an enzymatically inactive Cas9 polypeptide and a DNA-targeting RNA. Kits and compositions for carrying out the methods are also provided. The present disclosure provides genetically modified cells that produce Cas9; and Cas9 transgenic non-human multicellular organisms.

Described herein is a method for growing indium nitride (InN) materials by growing hexagonal and/or cubic InN using a pulsed growth method at a temperature lower than 300° C. Also described is a material comprising InN in a face-centered cubic lattice crystalline structure having an NaCl type phase.

A method and apparatus for producing AlN whiskers includes reduced incorporation of metal particles, an AlN whisker body, AlN whiskers, a resin molded body, and a method for producing the resin molded body. The method for producing AlN whiskers includes heating an Al-containing material in a material accommodation unit to thereby generate Al gas; and introducing the Al gas into a reaction chamber through a communication portion while introducing nitrogen gas into the reaction chamber through a gas inlet port, to thereby grow AlN whiskers on the surface of an Al.sub.2O.sub.3 substrate placed in the reaction chamber.