Charge Transfer Equilibria Between Diamond and an Aqueous Oxygen Electrochemical Redox Couple
University of Louisville · Duke University · +3 more institutions
Abstract
Undoped, high-quality diamond is, under almost all circumstances, one of the best insulators known. However, diamond covered with chemically bound hydrogen shows a pronounced conductivity when exposed to air. This conductivity arises from positive-charge carriers (holes) and is confined to a narrow near-surface region. Although several explanations have been proposed, none has received wide acceptance, and the mechanism remains controversial. Here, we report the interactions of hydrogen-terminated, macroscopic diamonds and diamond powders with aqueous solutions of controlled pH and oxygen concentration. We show that electrons transfer between the diamond and an electrochemical reduction/oxidation couple…
Citation impact
- FWCI
- 12.49
- Percentile
- 100%
- References
- 49
Authors
6- VCVidhya ChakrapaniCorresponding
University of Louisville, Duke University, RTI International, Duke Raleigh Hospital, Case Western Reserve University
- JCJohn C. Angus
University of Louisville, Duke University, RTI International, Duke Raleigh Hospital, Case Western Reserve University
- ABAlfred B. Anderson
University of Louisville, Duke University, RTI International, Duke Raleigh Hospital, Case Western Reserve University
- SDScott D. Wolter
University of Louisville, Duke University, RTI International, Duke Raleigh Hospital, Case Western Reserve University
- BRBrian R. Stoner
University of Louisville, Duke University, RTI International, Duke Raleigh Hospital, Case Western Reserve University
Topics & keywords
- Diamond
- Redox
- Conductivity
- Chemical physics
- Oxygen
- Electrochemistry
- Aqueous solution
- Electron transfer
- Clean water and sanitation