Abstract: In a semiconductor diamond device, there is provided an ohmic electrode that is chemically and thermally stable and has an excellent low contact resistance and high heat resistance. A nickel-chromium alloy, or a nickel-chromium compound, containing Ni and Cr such as Ni6Cr2 or Ni72Cr18Si10, which is chemically and thermally stable, is formed on a semiconductor diamond by a sputtering process and so forth, to thereby obtain the semiconductor diamond device provided with an excellent ohmic electrode. If heat treatment is applied after forming the nickel-chromium alloy or compound, it is improved in characteristics.

Abstract: Various semiconductor workpieces and methods of dicing the same are disclosed. In one aspect, a method of manufacturing is provided that includes forming a channel in a metallization structure on a backside of a semiconductor workpiece. The semiconductor workpiece includes a substrate. The channel is in substantial alignment with a dicing street on a front side of the semiconductor chip.

Abstract: Semiconductor-on-diamond (SOD) substrates and methods for making such substrates are provided. In one aspect, a method of making an SOD substrate may include depositing a base layer onto a lattice-orienting silicon (Si) substrate such that the base layer lattice is substantially oriented by the Si substrate, depositing a semiconductor layer onto the base layer such that the semiconductor layer lattice is substantially oriented with respect to the base layer lattice, and disposing a layer of diamond onto the semiconductor layer. The base layer may include numerous materials, including, without limitation, aluminum phosphide (AlP), boron arsenide (BAs), gallium nitride (GaN), indium nitride (InN), and combinations thereof. Additionally, the method may further include removing the lattice-orienting Si substrate and the base layer from the semiconductor layer. In one aspect, the Si substrate may be of a single crystal orientation.