Microwave Plasma Enhanced Chemical Vapor Deposition of Diamond in Vapor of Methanol-Based Liquid Solutions

Abstract

A method for depositing diamond crystals and diamond films from methanol-based liquid solutions is reported. Liquid solutions are prepared by mixing methanol with other carbon containing liquid compounds which contain a greater than one ratio of carbon to oxygen such as acetone, ethanol, and iso-propanol. An electrical discharge is generated by microwave power in a metal cavity in order to dissociate the vapor mixture from one of the liquid solutions, from which radicals such as OH, O, and H that etch non-diamond carbon much faster than diamond, as well as carbon containing radicals such as CH3 are produced on and near a substrate surface. Graphitic, amorphous and other forms of non-diamond carbon deposits are either suppressed from being deposited on the substrate or preferentially etched by OH, O, and H radicals resulting in the deposition of high quality diamond crystals and diamond films without the need for compressed gases such as hydrogen and methane.

Document Details

Document Type

Technical Report

Publication Date

Apr 30, 2000

Accession Number

ADA378595

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