NanoSystèmes Analytiques

Our group is based at the National School of Materials, Agronomy and Chemistry (ENSMAC).

Our areas of activity focus on the development of new analytical methods, concepts and tools. These tools enable us to offer practical solutions to numerous societal problems concerning public health, safety, food, environment and energy.

Analytical chemistry must constantly evolve and improve experimental performance in order to provide practical solutions to these essential issues. We develop these approaches from an academic perspective, but also in collaboration with private partners.

NSysA

Research Themes

Functional materials & surfaces porous electrodes, chiral imprints, surface gradients, Janus particles, micro-swimmers
Electrochemistry & light electrochemiluminescence, photoelectrochemistry, in situ microscopy, optical fibres
Colloids & soft matter sensitive nanogels, capsules & emulsions, artificial cells, self-assembled polymers, colloidal particles
Electrochemistry of biosystems electrochemical & optical microdevices, biosensors & bioenergy, detection in complex environments, particles for delivery

Current Projects

NSysA receives financial support from several sources in the frame of granted research projects

Collaborations

Explore NSysA's local and international collaborative network

Main Equipment

Discover NSysA's dedicated scientific equipment park

NSysA

En chiffres

Chercheur_(s)

Enseignant-chercheur_(s)

ITA/BIATSS_(s)

Post-doctorant_(s)

Doctorant_(s)

Stagiaire_(s)

NSysA

Membres du groupe

Les publications récentes du groupe

Voir toutes les publications du groupe

Brézault, A., Perrin, P., Garrigue, P., Ly, I., Sanson, N., Schmitt, V., Ravaine, V. (2026). Supramolecular microgels for Pickering emulsion stabilization in the limited coalescence regime: The key role of microgel structure. In Journal of Colloid and Interface Science (Vol. 709, p. 139858). https://doi.org/10.1016/j.jcis.2026.139858

Hussein, H.M., Fattah, Z.A., Kuhn, A. (2026). Bipolar electrochemistry for efficient removal of methylene blue from polluted water. In Electrochimica Acta (Vol. 554, p. 148349). https://doi.org/10.1016/j.electacta.2026.148349

Ali, N.B., Abdedayem, A., Garrigue, P., Achchaq, F., Ragoubi, M., Ben-Ali, S. (2026). Comparative Study of Cellulose Extraction From Lignocellulosic Biomass Wastes. In Chemistry Africa (Vol. 9, Issue 2, p. 47). https://doi.org/10.1007/s42250-026-01600-4

NSysA

Mots-clés

Electrochimie
biochimie
matière molle
colloïdes
optique
spectroscopie
micro/nanomatériaux
capteurs chimiques
biocapteurs
microscopie confocale
électrochimiluminescence
imagerie électrochimique
microgels
émulsions
polymères stimulables
bioréacteurs
électrodes poreuses
particules Janus
électrochimie bipolaire
électrochimie à l’échelle de la cellule unique.

NSysA

Coordonnées des équipes du groupe

Current Projects

Institut des Sciences Moléculaires, UMR CNRS 5255
Université de Bordeaux - INP/ENSMAC - 33607 Pessac

Contact

Collaborations

Institut des Sciences Moléculaires, UMR CNRS 5255
Université de Bordeaux - INP/ENSMAC - 33607 PESSAC

Main Equipment

Institut des Sciences Moléculaires, UMR CNRS 5255
Université de Bordeaux - INP/ENSMAC - 33607 PESSAC

NanoSystèmes Analytiques (NSysA)

Research Themes

En chiffres

Membres du groupe

Les publications récentes du groupe

Mots-clés

Coordonnées des équipes du groupe

Current Projects

Collaborations

Main Equipment