Solid State Synthesis and Characterization of Carbo-Nitride Materials

Abstract

The preparation of stoichiometric sp(sup 2)-bonded amorphous carbon nitride a-C3N4 in gram quantities was successfully achieved by performing a solid-state reaction of cyanuric halides C3N3X3 (X=Cl, F) with lithium nitride L3N at temperatures 300-380 deg C. Addition of boron precursors, e. g., NaBF4, resulted in preparation of a nitrogen-rich BC-N powder of approximately B3C3N7 composition and showing thermal stability up to temperatures of 1000 deg C. The densification of micronized powders by cold isothermal pressing has produced disk-shaped ceramics of C3N4 and B-C-N materials, being lighter than graphite and boron nitride h-BN, respectively. Further modification of the reaction by introduction of porous substrates and templates has led to preparation of a previously unknown material - sphere-shaped nanoscale-size carbon nitride built by stacking of curved C3N4 layers. Preliminary high pressure/high temperature experiments with the C3N4 powder as precursor have demonstrated that the structure of carbon nitride changes under pressures of 8 to 12 Gpa from amorphous to a more ordered graphite-like one, retaining the C3N4 stoichiometry at temperatures up to 500 deg C and losing nitrogen at higher temperatures. The overall amorphous morphology of the carbon nitride has so far precluded the generation of a secondary electron emission by this material during the tests performed. Continuing attempts to prepare crystalline carbo-nitride phases both by the high pressure treatment of amorphous powder precursors and by an appropriate synthetic routes designed are in progress in our laboratory.

Document Details

Document Type

Technical Report

Publication Date

Jul 10, 2000

Accession Number

ADA384554

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