arantzazu Narvaez Garcia
University Professor
 Analytical Chemistry, Physical Chemistry and Chemical Engi
Alcala University
Spain
Biography
Dr. Arantzazu Narvaez Garcia is currently working as a University Professor in the Department of Analytical Chemistry, Physical Chemistry and Chemical Engineering, Alcala University , Spain. Her research interests includes Development of analytical systems based on affinity and catalytic reactions. Bioelectrochemical studies, Heterofunctional nanoparticles from biomimetic routes: characterization and applications. She is serving as an editorial member and reviewer of several international reputed journals. Dr. Arantzazu Narvaez Garcia is the member of many international affiliations. She has successfully completed her Administrative responsibilities. She has authored of many research articles/books related to Development of analytical systems based on affinity and catalytic reactions. Bioelectrochemical studies, Heterofunctional nanoparticles from biomimetic routes: characterization and applications.
Research Interest
Development of analytical systems based on affinity and catalytic reactions. Bioelectrochemical studies, Heterofunctional nanoparticles from biomimetic routes: characterization and applications
Publications
-
JIMÉNEZ CENTELLES, Javier; NARVÃEZ GARCÃA, Arantzazu; DOMINGUEZ CAÑAS, Elena; "Magneto-Induced Self-Assertion of Conductive Nanowires for Biosensor Application". (ISSN: 0022-3654). Journal of Physical Chemistry. 2008, vol 112, num. 19, p. 7337 - 7344
-
JIMÉNEZ CENTELLES, Javier; NARVÃEZ GARCÃA, Arantzazu; DOMINGUEZ CAÑAS, Elena; ACEVEDO RODRÃGUEZ, Francisco Javier; MALDONADO BASCÓN, Saturnino; "Nonparametric multivariate regression methods to determine dexamethasone concentration using ELISA measurements.". (ISSN: 0169-7439). Chemometrics and Intelligent Laboratory Systems. 2009, vol 100, p. 41 - 47
-
ZAMORA BONACHELA, Patricia; DOMINGUEZ CAÑAS, Elena; NARVÃEZ GARCÃA, Arantzazu; "Enzyme-modified nanoparticles using biomimetically synthethised silica". (ISSN: 1567-5394). Bioelectrochemistry. 2010, vol 76, p. 100 - 106
