A silicon-on-insulator substrate includes: (1) a high-resistivity base layer including silicon and a trap-rich region including arsenic diffused within a first side of the high-resistivity base layer, wherein the trap-rich region has a thickness that is in a range of 1 to 10 microns and a trap density that is in a range of 0.8*10.sup.10 cm.sup.2 eV.sup.1 to 1.2*10.sup.10 cm.sup.2 eV.sup.1, wherein the high-resistivity base layer has resistivity in a range of 50 to 100 ohm-meters and a thickness in a range of 500 to 700 microns; (2) a silicon dioxide layer positioned on the first side of the high-resistivity base layer and having a thickness that is in a range of 1000 to 5000 angstroms; and (3) a transfer layer positioned on the silicon dioxide layer, wherein the transfer layer comprises a silicon wafer having a thickness that is a range of 500 to 5000 angstroms.

A method of forming conductive member includes: forming, on substrate, first portion containing first element constituting the conductive member to be obtained and second element causing eutectic reaction with the first element, and second portion containing third element constituting intermetallic compound with the second element; crystallizing primary crystals of the first element by adjusting temperature of the substrate after bringing the first portion into liquid phase state; growing crystal grains of the first element by diffusing the second element from the first portion into the second portion to increase ratio of the first element in crystal state to the first and second elements in the liquid phase state in the first portion while maintaining the temperature of the substrate at the same temperature; and turning the first portion, after completing diffusion of the second element into the second portion, into the conductive member having crystal grains of the first element.

A method of forming conductive member includes: forming, on substrate, first portion containing first element constituting the conductive member to be obtained and second element causing eutectic reaction with the first element, and second portion containing third element constituting intermetallic compound with the second element; crystallizing primary crystals of the first element by adjusting temperature of the substrate after bringing the first portion into liquid phase state; growing crystal grains of the first element by diffusing the second element from the first portion into the second portion to increase ratio of the first element in crystal state to the first and second elements in the liquid phase state in the first portion while maintaining the temperature of the substrate at the same temperature; and turning the first portion, after completing diffusion of the second element into the second portion, into the conductive member having crystal grains of the first element.