Polymer‐derived ceramics for electrocatalytic energy conversion reactions

Abstract: Polymer-derived ceramics (PDCs) are being actively explored in various fields today because of their unique physiochemical properties. Very recent advances in the use of PDCs in energy storage technologies (e.g., batteries, supercapacitors) have motivated researchers to explore the possibilities of PDCs as electrocatalysts for use in energy conversion reactions. Impressively, the tunable functional properties, especially the electrical properties, of PDCs have helped to break through this "bottleneck" and enab… Show more

“…CHEAB might however produce e. g. carbon-doped boron nitride in higher yields, provided a two-step process is applied as for the polymer-derived ceramics route (i. e. dehydrocoupling at < 250 °C to form a polymer, and pyrolysis at > 600 °C of the as-formed polymer). [21]…”

Synthesis and Characterization of (R)‐N‐1‐Cyclohexylethylamine Borane

“…CHEAB might however produce e. g. carbon-doped boron nitride in higher yields, provided a two-step process is applied as for the polymer-derived ceramics route (i. e. dehydrocoupling at < 250 °C to form a polymer, and pyrolysis at > 600 °C of the as-formed polymer). [21]…”

Synthesis and Characterization of (R)‐N‐1‐Cyclohexylethylamine Borane