3-DIMENSIONAL DEVICES FABRICATED BY SILICON EPITAXIAL LATERAL OVERGROWTH

Selective epitaxial growth (SEG) and epitaxial lateral overgrowth (ELO) of silicon over oxide are used for novel device technologies in CMOS and bipolar with a large potential for BICMOS. A stacked inverted P-MOS device in crystalline Si on top of an oxidized poly-gate was fabricated with the critical "as-grown" interface state densities, between the ELO silicon grown over the existing poly-oxide, measured to be less than 2 × 1011/ (cm2-eV) near midgap. A SiH2Cl2-HCl-H2 in a LPCVD epitaxial system was employed at 150 Torr and at 900° C to produce the ELO/SEG material. The initial stacked-inverted 3D P-MOS devices typically show hole mobilities of greater than 160 cm2/V-s with adequate subthreshold characteristics for 3-dimensional CMOS implementation. A new form of SEG was used to grow single crystal silicon horizontally between dielectric walls to form SOI material in thin slabs, called confined lateral selective epitaxial growth (CLSEG). BJT-SOI device structures with βdc > 150 were fabricated in CLSEG silicon to demonstrate the device quality material and to show the 3D-SOI capability. © 1990 The Mineral,Metal & Materials Society,Inc.