Diamond surface functionalization with biomimicry - Amine surface tether and thiol moiety for electrochemical sensors
Publication
, Journal Article
Sund, JB; Causey, CP; Wolter, SD; Parker, CB; Stoner, BR; Toone, EJ; Glass, JT
Published in: Applied Surface Science
2014
Duke Scholars
Published In
Applied Surface Science
ISSN
0169-4332
Publication Date
2014
Related Subject Headings
- Applied Physics
Citation
APA
Chicago
ICMJE
MLA
NLM
Sund, J. B., Causey, C. P., Wolter, S. D., Parker, C. B., Stoner, B. R., Toone, E. J., & Glass, J. T. (2014). Diamond surface functionalization with biomimicry - Amine surface tether and thiol moiety for electrochemical sensors. Applied Surface Science.
Sund, J. B., C. P. Causey, S. D. Wolter, C. B. Parker, B. R. Stoner, E. J. Toone, and J. T. Glass. “Diamond surface functionalization with biomimicry - Amine surface tether and thiol moiety for electrochemical sensors.” Applied Surface Science, 2014.
Sund JB, Causey CP, Wolter SD, Parker CB, Stoner BR, Toone EJ, et al. Diamond surface functionalization with biomimicry - Amine surface tether and thiol moiety for electrochemical sensors. Applied Surface Science. 2014;
Sund, J. B., et al. “Diamond surface functionalization with biomimicry - Amine surface tether and thiol moiety for electrochemical sensors.” Applied Surface Science, 2014.
Sund JB, Causey CP, Wolter SD, Parker CB, Stoner BR, Toone EJ, Glass JT. Diamond surface functionalization with biomimicry - Amine surface tether and thiol moiety for electrochemical sensors. Applied Surface Science. 2014;
Published In
Applied Surface Science
ISSN
0169-4332
Publication Date
2014
Related Subject Headings
- Applied Physics