Person | Bioinspired Materials NCCR | Université de Fribourg

BONMARIN Mathias

Alumni

Research group FINK

Website:	https://ami.swiss/en/groups/bionanomaterials/
	0000-0003-0227-9247

Projects team

Magneto-responsive cell culture substrates that can be modulated in situ

Active between 01.06.2014 and 31.05.2018

Read more

Intelligent nanomaterials to reveal and control their behavior in complex media, at biointerface and in cells

Active between 01.06.2014 and 31.05.2018

Read more
Publications

Lock-in thermography as an analytical tool for magnetic nanoparticles: Measuring heating power and magnetic fields
Monnier Christophe A., Crippa Federica, Geers Christoph, Knapp Evelyne, Rothen-Rutishauser Barbara, Bonmarin Mathias, Lattuada Marco, Petri-Fink Alke
The Journal of Physical Chemistry C (2017)

Lock-in thermography as a rapid and reproducible thermal characterization method for magnetic nanoparticles
Lemal Philipp, Geers Christoph, Monnier Christophe A., Crippa Federica, Daum Leopold, Urban Dominic A., Rothen-Rutishauser Barbara, Bonmarin Mathias, Petri-Fink Alke, Moore Thomas L.
Journal of Magnetism and Magnetic Materials (2017)

A lock-in-based method to examine the thermal signatures of magnetic nanoparticles in the liquid, solid and aggregated states
Monnier C. A., Lattuada M., Burnand D., Crippa F., Martinez-Garcia J. C., Hirt A. M., Rothen-Rutishauser B., Bonmarin M., Petri-Fink A.
Nanoscale (2016)

Lock‐in thermography to analyze plasmonic nanoparticle dispersions
Steinmetz Lukas, Taladriz‐Blanco Patricia, Geers Christoph, Spuch‐Calvar Miguel, Bonmarin Mathias, Balog Sandor, Rothen‐Rutishauser Barbara, Petri‐Fink Alke
Particle & Particle Systems Characterization (2019)

Rapid and sensitive quantification of cell-associated multi-walled carbon nanotubes
Steinmetz Lukas, Bourquin Joel, Barosova Hana, Haeni Laetitia, Caldwell Jessica, Milosevic Ana, Geers Christoph, Bonmarin Mathias, Taladriz-Blanco Patricia, Rothen-Rutishauser Barbara, Petri-Fink Alke
Nanoscale (2020)

Experimental and theoretical validation of plasmonic nanoparticle heat generation by using lock-in thermography
Steinmetz Lukas, Geers Christoph, Bonmarin Mathias, Rothen-Rutishauser Barbara, Petri-Fink Alke, Lattuada Marco
The Journal of Physical Chemistry C (2021)

A comparative study of silver nanoparticle dissolution under physiological conditions
Steinmetz Lukas, Geers Christoph, Balog Sandor, Bonmarin Mathias, Rodriguez-Lorenzo Laura, Taladriz-Blanco Patricia, Rothen-Rutishauser Barbara, Petri-Fink Alke
Nanoscale Advances (2020)

Lock‐In Thermography to Analyze Plasmonic Nanoparticle Dispersions
Steinmetz Lukas, Taladriz‐Blanco Patricia, Geers Christoph, Spuch‐Calvar Miguel, Bonmarin Mathias, Balog Sandor, Rothen‐Rutishauser Barbara, Petri‐Fink Alke
Particle & Particle Systems Characterization (2019)

Investigating a Lock-In Thermal Imaging Setup for the Detection and Characterization of Magnetic Nanoparticles
Steinmetz Lukas, Kirsch Christoph, Geers Christoph, Petri-Fink Alke, Bonmarin Mathias
Nanomaterials (2020)

BONMARIN Mathias

Magneto-responsive cell culture substrates that can be modulated in situ

Intelligent nanomaterials to reveal and control their behavior in complex media, at biointerface and in cells