MISHYN Vladyslav

MISHYN Vladyslav

postdoctoral researcher

Address: UMR FARE, 2 esplanade Roland-Garros, BP 224, 51686 Reims cedex 2

Phone: +33 (0)3 26 77 36 28

E-mail: vladyslav.mishyn@univ-reims.fr

Orcid : https://orcid.org/0000-0002-7500-7923

Career

2018-2021: Doctoral student (PhD) in electronics, microelectronics and nanotechnologies in University of Lille (IEMN, Villeneuve d’Ascq)

September - December 2019: Internship in Austrian institute of technology (AIT, Vienna)

March 2016 - August 2016: Internship in University of Konstanz

2013-2016: Research engineer of ESR spectrometer in Taras Shevchenko National University of Kyiv

Education

2016-2018: Master in physical and analytical chemistry in University of Lille/ University of Leipzig

2011-2015: Bachelor in inorganic chemistry in Taras Shevchenko National University of Kyiv

Skills

Surface chemistry and characterization (imaging and spectroscopy), electrochemistry and biosensing,

bioelectronics based on graphene materials

Research interests

Development of new electrochemical interfaces for electrocatalytic reactions applied to lignin valorization.

Main publications

1. Rodrigues, T., Mishyn, V., Leroux, Y.R., Butruille, L., Woitrain, E., Barras, A., Aspermair, P., Happy, H., Kleber, C., Boukherroub, R. and Montaigne, D., 2022. Highly performing graphene-based field effect transistor for the differentiation between mild-moderate-severe myocardial injury. Nano Today, 43, p.101391.

2. Mishyn, V., Rodrigues, T., Leroux, Y.R., Aspermair, P., Happy, H., Bintinger, J., Kleber, C., Boukherroub, R., Knoll, W. and Szunerits, S., 2021. Controlled covalent functionalization of a graphene-channel of a field effect transistor as an ideal platform for (bio) sensing applications. Nanoscale Horizons, 6(10), pp.819-829.

3. Mishyn, V., Rodrigues, T., Leroux, Y.R., Butruille, L., Woitrain, E., Montaigne, D., Aspermair, P., Happy, H., Knoll, W., Boukherroub, R. and Szunerits, S., 2021. Electrochemical and electronic detection of biomarkers in serum: a systematic comparison using aptamer-functionalized surfaces. Analytical and Bioanalytical Chemistry, pp.1-9.

4. Szunerits, S., Mishyn, V., Grabowska, I. and Boukherroub, R., 2019. Electrochemical cardiovascular platforms: Current state of the art and beyond. Biosensors and Bioelectronics, 131, pp.287-298.

Modification date: 12 January 2024 | Publication date: 10 February 2022 | By: S. Abdellaoui