MICHAEL HOLZINGER
Directeur de recherche (CNRS)
Affiliation
Centre national de la recherche scientifique
Équipe de recherche
DCM-BIOCEN
Disciplines scientifiques
Chimie des matériaux
Chimie des matériaux, nanomatériaux et procédés
Matière condensée : structures et propriétés électroniques
Chimie des matériaux, nanomatériaux et procédés
Matière condensée : structures et propriétés électroniques
Habilitation à diriger des recherches
Nouvelles stratégies d’immobilisation de biomolécules sur des nanotubes de carbone monofeuillets
from 01/01/2006 to 22/06/2011
from 01/01/2006 to 22/06/2011
Thèse
Functionalization of Single-Walled Carbon Nanotubes
sous la direction de Prof. Dr. Andreas Hirsch
from 01/03/1999 to 07/06/2002
sous la direction de Prof. Dr. Andreas Hirsch
from 01/03/1999 to 07/06/2002
Responsabilités
Engagements dans des sociétés savantes
- vice-Président de la subdivision « Nanosciences » de la Division Chimie Physique de la SCF
Organisation des manifestations
- Elecmol 2018, 27 - 31 aout 2018, Paris / Comité d’organisation
- 2nd European Conference on Physical Chemistry (ECPC 2017), 24-27 Septembre 2017, Borgo, Corse / Comité d’organisation
- 24th International Symposium on Bioelectrochemistry and Bioenergetics of the Bioelectrochemical Society, 3-7 juillet 2017, Lyon / Comité d’organisation
- Symposium « Enzymatic fuel cells », 3-7 juillet 2017, Lyon / Organisateur
- 1st Molecular Technology Workshop “Energy and electron transfers in molecular engineered materials, 28-30 juin 2017, Strasbourg, France / Co-organisateur avec Vincent Artero et Jean Weiss
- 2D @ Grenoble, 13 avril 2017, Grenoble / Comité d’organisation
- Meeting Franco-Japonais « (Bio)-fonctionnalisation du carbone nanostructuré 1er-2 Septembre 2016, Grenoble / Organisateur
- Workshop « Nanosciences et Magnétisme », 20 octobre 2016, Nancy / Comité d’organisation
Responsabilités Scientifiques et Administratives
- Membre du conseil scientifique de l'Institut Carnot PolyNat
- Responsable scientifique du plateau « Fonctionnalisation et Transduction » du Pôle d'innovation Nanobio à Grenoble
- Représentant de l’équipe BEA au Conseil d’Unité et au Comité de Direction du DCM
- AP au DCM et membre du CHSCT de l’UFR chimie-biologie de Grenoble
- Membre du Conseil d’Administration de la Fondation Nanosciences (2012-2015)
Enseignement
- Since 2016 Cours: “Surface functionalization” Master II Nano Biomed, UGA/INP-Grenoble, France (9 heures/an)
- Since 2010 Cours: “Nanocomposite Materials. Fundamental properties and Applications” Master II Nano Chemistry UGA, France (8 heures/an)
- Since 2012 Formation hygiène et sécurité en anglais pour les nouveaux entrants non-francophones au DCM (4 heures/an) et depuis 2016 Formation risques chimiques en anglais à l’Université Grenoble Alpes (2 heures/an)
Çakıroğlu, B., Jabiyeva N., & Holzinger M.
(2023). Photosystem II as a chemiluminescence-induced photosensitizer for photoelectrochemical biofuel cell-type biosensing system.
Biosens. & Bioelectron.. 226,
Holzinger, M.
(2023). Carbon-Based Nanostructured Bio-Assemblies for Bioelectrochemical Applications.
Biomedical Materials & Devices.
Holzinger, M., Cosnier S., & Buzzetti P. Henrique M.
(2023). The versatility of pyrene and its derivatives on sp2 carbon nanomaterials for bioelectrochemical applications.
Synthetic Metals. 292,
Brazzolotto, D., Nedellec Y., Philouze C., Holzinger M., Thomas F., & Le Goff A.
(2022). Functionalizing Carbon Nanotubes with Bis(2,9-dialkyl-1,10-phenanthroline)copper(II) Complexes for the Oxygen Reduction Reaction.
Inorganic Chemistry. 61(38),
Holzinger, M., Buzzetti P. Henrique M., & Cosnier S.
(2021). Polymers and nano-objects, a rational combination for developing health monitoring biosensors.
Sensors and Actuators B: Chemical. 348,
Palomar, Q., Gondran C., Lellouche J-P., Cosnier S., & Holzinger M.
(2020). Functionalized Tungsten disulfide nanotubes for Dopamine and Catechol detection in a Tyrosinase-based Amperometric Biosensor design.
Journal of Materials Chemistry B. 8,
Palomar, Q., Xu XX., Gondran C., Holzinger M., Cosnier S., & Zhang Z.
(2020). Voltammetric sensing of recombinant viral dengue virus 2 NS1 based on Au nanoparticle–decorated multiwalled carbon nanotube composites.
Microchimica Acta. 187(6),
Bianco, A., Chen Y., Frackowiak E., Holzinger M., Koratkar N., Meunier V., et al.
(2020). Carbon science perspective in 2020: Current research and future challenges.
Carbon. 161,
Singh, M., Nolan H., Tabrizian M., Cosnier S., Duesberg G. S., & Holzinger M.
(2020). Functionalization of contacted Carbon Nanotube Forests by dip coating for high performing bio-cathodes.
ChemElectroChem. 7(22),
Gross, A. James, Tanaka S., Colomies C., Giroud F., Nishina Y., Cosnier S., et al.
(2020). Diazonium electrografting vs. physical adsorption of Azure A at carbon nanotubes for mediated glucose oxidation with FAD-GDH.
ChemElectroChem. 7(22),
Çakıroğlu, B., Chauvin J., Le Goff A., Gorgy K., Özacar M., & Holzinger M.
(2020). Photoelectrochemically-assisted biofuel cell constructed by redox complex and g-C3N4 coated MWCNT bioanode.
Biosensors & Bioelectronics. 169,
Çakıroğlu, B., Chauvin J., Le Goff A., Gorgy K., Özacar M., & Holzinger M.
(2020). Photoelectrochemically-assisted biofuel cell constructed by redox complex and g-C3N4 coated MWCNT bioanode.
Biosensors and Bioelectronics. 169, 112601.
Cosnier, S., Gross A. J., Giroud F., & Holzinger M.
(2018). Beyond the hype surrounding biofuel cells: What's the future of enzymatic fuel cells?.
Current Opinion in Electrochemistry. 12,
Abreu, C., Nedellec Y., Ondel O., Buret F., Cosnier S., Le Goff A., et al.
(2018). Towards eco-friendly power sources: In series connected glucose biofuel cells power a disposable ovulation test.
Sensors and Actuators B: Chemical. 277,
Ben Tahar, A., Romdhane A., Lalaoui N., Reverdy-Bruas N., Le Goff A., Holzinger M., et al.
(2018). Carbon nanotube-based flexible biocathode for enzymatic biofuel cells by spray coating.
Journal of Power Sources. 408,
Abreu, C., Nedellec Y., Ondel O., Buret F., Cosnier S., Le Goff A., et al.
(2018). Glucose oxidase bioanodes for glucose conversion and H2O2 production for horseradish peroxidase biocathodes in a flow through glucose biofuel cell design.
Journal of Power Sources. 392,
Gross, A. J., Holzinger M., & Cosnier S.
(2018). Buckypaper bioelectrodes: Emerging materials for implantable and wearable biofuel cells.
Energy & Environmental Science.
Palomar, Q., Gondran C., Marks R., Cosnier S., & Holzinger M.
(2018). Impedimetric quantification of anti-dengue antibodies using functional carbon nanotube deposits validated with blood plasma assays.
Electrochimica Acta. 274,
Le Goff, A., & Holzinger M.
(2018). Molecular engineering of the bio/nano-interface for enzymatic electrocatalysis in fuel cells.
Sustainable Energy & Fuels. 2(12),
Holzinger, M., Nishina Y., Le Goff A., Tominaga M., Cosnier S., & Tsujimura S.
(2018). Molecular design of glucose biofuel cell electrodes.
Molecular Technology: Energy Innovation.
Giroud, F., Gross A. J., D Jr. F., Holzinger M., de Campos C. E. Maduro, Acuna J. J. S., et al.
(2017). Hydrazine Electrooxidation with PdNPs and Its Application for a Hybrid Self-Powered Sensor and N2H4 Decontamination..
J. Electrochem. Soc.. 164, H3052–H3057.
Gross, A. J., Hammond J. L., Holzinger M., & Cosnier S.
(2017). Flotation assembly of large-area ultrathin MWCNT nanofilms for construction of bioelectrodes..
Nanomaterials. 7, 342/1–342/11.
El-Hout, S. I., Suzuki H., El-Sheikh S. M., Hassan H. M. A., Harraz F. A., Ibrahim I. A., et al.
(2017). Tuning the redox potential of vitamin K3 derivatives by oxidative functionalization using a Ag(I)/GO catalyst..
Chem. Commun. (Cambridge, United Kingdom). 53, 8890–8893.
Holzinger, M., Le Goff A., & Cosnier S.
(2017). Synergetic effects of combined nanomaterials for biosensing applications..
Sensors. 17, 1010/1–1010/16.
Abreu, C., Nedellec Y., Gross A. J., Ondel O., Buret F., Le Goff A., et al.
(2017). Assembly and Stacking of Flow-through Enzymatic Bioelectrodes for High Power Glucose Fuel Cells..
ACS Appl. Mater. Interfaces. 9, 23836–23842.
Palomar, Q., Gondran C., Holzinger M., Marks R., & Cosnier S.
(2017). Controlled carbon nanotube layers for impedimetric immunosensors: High performance label free detection and quantification of anti-cholera toxin antibody..
Biosens. Bioelectron.. 97, 177–183.
Rengaraj, S., Haddad R., Lojou E., Duraffourg N., Holzinger M., Le Goff A., et al.
(2017). Interprotein Electron Transfer between FeS-Protein Nanowires and Oxygen-Tolerant NiFe Hydrogenase..
Angew. Chemie, Int. Ed.. 56, 7774–7778.
Gross, A. J., Chen X., Giroud F., Abreu C., Le Goff A., Holzinger M., et al.
(2017). A High Power Buckypaper Biofuel Cell: Exploiting 1,10-Phenanthroline-5,6-dione with FAD-Dependent Dehydrogenase for Catalytically-Powerful Glucose Oxidation..
ACS Catal.. 7, 4408–4416.
Altamura, L., Horvath C., Rengaraj S., Rongier A., Elouarzaki K., Gondran C., et al.
(2017). A synthetic redox biofilm made from metalloprotein-prion domain chimera nanowires..
Nat. Chem.. 9, 157–163.
Lalaoui, N., Means N., Walgama C., Le Goff A., Holzinger M., Krishnan S., et al.
(2016). Enzymatic versus Electrocatalytic Oxidation of NADH at Carbon-Nanotube Electrodes Modified with Glucose Dehydrogenases: Application in a Bucky-Paper-Based Glucose Enzymatic Fuel Cell..
ChemElectroChem. 3, 2058–2062.
Boussema, F., Haddad R., Ghandour Y., Belkhiria M. Salah, Holzinger M., Maaref A., et al.
(2016). Polyoxometalate [PMo11O39]7-/carbon nanocomposites for sensitive amperometric detection of nitrite..
Electrochim. Acta. 222, 402–408.
Lalaoui, N., Reuillard B., Philouze C., Holzinger M., Cosnier S., & Le Goff A.
(2016). Osmium(II) Complexes Bearing Chelating N-Heterocyclic Carbene and Pyrene-Modified Ligands: Surface Electrochemistry and Electron Transfer Mediation of Oxygen Reduction by Multicopper Enzymes..
Organometallics. 35, 2987–2992.
Lalaoui, N., Holzinger M., Le Goff A., & Cosnier S.
(2016). Diazonium Functionalisation of Carbon Nanotubes for Specific Orientation of Multicopper Oxidases: Controlling Electron Entry Points and Oxygen Diffusion to the Enzyme..
Chem. - A Eur. J.. 22, 10494–10500.
Cosnier, S., Gross A. J., Le Goff A., & Holzinger M.
(2016). Recent advances on enzymatic glucose/oxygen and hydrogen/oxygen biofuel cells: Achievements and limitations..
J. Power Sources. 325, 252–263.
Elouarzaki, K., Holzinger M., Le Goff A., Thery J., Marks R. S., & Cosnier S.
(2016). Glucose fuel cell based on carbon nanotube-supported pyrene-metalloporphyrin catalysts..
J. Mater. Chem. A Mater. Energy Sustain.. 4, 10635–10640.
Lalaoui, N., David R., Jamet H., Holzinger M., Le Goff A., & Cosnier S.
(2016). Hosting Adamantane in the Substrate Pocket of Laccase: Direct Bioelectrocatalytic Reduction of O2 on Functionalized Carbon Nanotubes..
ACS Catal.. 6, 4259–4264.
Gentil, S., Serre D., Philouze C., Holzinger M., Thomas F., & Le Goff A.
(2016). Electrocatalytic O2 Reduction at a Bio-inspired Mononuclear Copper Phenolato Complex Immobilized on a Carbon Nanotube Electrode..
Angew. Chemie, Int. Ed.. 55, 2517–2520.
D Junior, F., Haddad R., Giroud F., Holzinger M., de Campos C. E. Maduro, Acuna J. J. S., et al.
(2016). Cubic PdNP-based air-breathing cathodes integrated in glucose hybrid biofuel cells..
Nanoscale. 8, 10433–10440.
Lalaoui, N., Rousselot-Pailley P., Robert V., Mekmouche Y., Villalonga R., Holzinger M., et al.
(2016). Direct Electron Transfer between a Site-Specific Pyrene-Modified Laccase and Carbon Nanotube/Gold Nanoparticle Supramolecular Assemblies for Bioelectrocatalytic Dioxygen Reduction..
ACS Catal.. 6, 1894–1900.
Lalaoui, N., Le Goff A., Holzinger M., & Cosnier S.
(2015). Fully Oriented Bilirubin Oxidase on Porphyrin-Functionalized Carbon Nanotube Electrodes for Electrocatalytic Oxygen Reduction..
Chem. - A Eur. J.. 21, 16868–16873.
Monsalve, K., Mazurenko I., Lalaoui N., Le Goff A., Holzinger M., Infossi P., et al.
(2015). A H2/O2 enzymatic fuel cell as a sustainable power for a wireless device..
Electrochem. commun.. 60, 216–220.
Elouarzaki, K., Mandoc L-R. Popescu, Gorgy K., Holzinger M., Amarandei C-A., Ungureanu E-M., et al.
(2015). Synthesis and electrochemical characterization of original "TEMPO" functionalized multiwall carbon nanotube materials: Application to iron (II) detection..
Electrochem. commun.. 60, 131–134.
Bourourou, M., Holzinger M., Elouarzaki K., Le Goff A., Bossard F., Rossignol C., et al.
(2015). Laccase wiring on free-standing electrospun carbon nanofibers using a mediator plug..
Chem. Commun. (Cambridge, United Kingdom). 51, 14574–14577.
Elouarzaki, K., Bourourou M., Holzinger M., Le Goff A., Marks R. S., & Cosnier S.
(2015). Freestanding HRP-GOx redox buckypaper as an oxygen-reducing biocathode for biofuel cell applications..
Energy Environ. Sci.. 8, 2069–2074.
Reuillard, B., Abreu C., Lalaoui N., Le Goff A., Holzinger M., Ondel O., et al.
(2015). One-year stability for a glucose/oxygen biofuel cell combined with pH reactivation of the laccase/carbon nanotube biocathode..
Bioelectrochemistry. 106, 73–76.
Lalaoui, N., de Poulpiquet A., Haddad R., Le Goff A., Holzinger M., Gounel S., et al.
(2015). A membraneless air-breathing hydrogen biofuel cell based on direct wiring of thermostable enzymes on carbon nanotube electrodes..
Chem. Commun. (Cambridge, United Kingdom). 51, 7447–7450.
Haddad, R., Thery J., Gauthier-Manuel B., Elouarzaki K., Holzinger M., Le Goff A., et al.
(2015). High performance miniature glucose/O2 fuel cell based on porous silicon anion exchange membrane..
Electrochem. commun.. 54, 10–13.
Singh, M., Holzinger M., Tabrizian M., Winters S., Berner N. C., Cosnier S., et al.
(2015). Noncovalently functionalized monolayer graphene for sensitivity enhancement of surface plasmon resonance immunosensors..
J. Am. Chem. Soc.. 137, 2800–2803.
Le Goff, A., Holzinger M., & Cosnier S.
(2015). Recent progress in oxygen-reducing laccase biocathodes for enzymatic biofuel cells..
Cell. Mol. Life Sci.. 72, 941–952.
Lalaoui, N., Le Goff A., Holzinger M., Mermoux M., & Cosnier S.
(2015). Wiring Laccase on Covalently Modified Graphene:Carbon Nanotube Assemblies for the Direct Bio-electrocatalytic Reduction of Oxygen..
Chem. - A Eur. J.. 21, 3198–3201.
Elouarzaki, K., Haddad R., Holzinger M., Le Goff A., Thery J., & Cosnier S.
(2014). MWCNT-supported phthalocyanine cobalt as air-breathing cathodic catalyst in glucose/O2 fuel cells..
J. Power Sources. 255, 24–28.
Cosnier, S., Le Goff A., & Holzinger M.
(2014). Towards glucose biofuel cells implanted in human body for powering artificial organs: Review..
Electrochem. commun.. 38, 19–23.
Fritea, L., Haddache F., Reuillard B., Le Goff A., Gorgy K., Gondran C., et al.
(2014). Electrochemical nanopatterning of an electrogenerated photosensitive poly-[trisbipyridinyl-pyrrole ruthenium(II)] metallopolymer by nanosphere lithography..
Electrochem. commun.. 46, 75–78.
Cosnier, S., Holzinger M., & Le Goff A.
(2014). Recent Advances in Carbon Nanotube-Based Enzymatic Fuel Cells.
Frontiers in Bioengineering and Biotechnology. 2, 45.
Reuillard, B., Le Goff A., Holzinger M., & Cosnier S.
(2014). Non-covalent functionalization of carbon nanotubes with boronic acids for the wiring of glycosylated redox enzymes in oxygen-reducing biocathodes..
J. Mater. Chem. B Mater. Biol. Med.. 2, 2228–2232.
Mandoc, L-R. Popescu, Gorgy K., Ungureanu E-M., Buica G-O., Holzinger M., & Cosnier S.
(2014). Permeability improvements of electropolymerized polypyrrole films using dissolvable nano-CaCO3 particle templates..
Phys. Chem. Chem. Phys.. 16, 5052–5055.
Elouarzaki, K., Le Goff A., Holzinger M., Agnes C., Duclairoir F., Putaux J-L., et al.
(2014). From gold porphyrins to gold nanoparticles: catalytic nanomaterials for glucose oxidation..
Nanoscale. 6, 8556–8560.
Keeley, G. P., McEvoy N., Nolan H., Holzinger M., Cosnier S., & Duesberg G. S.
(2014). Electroanalytical Sensing Properties of Pristine and Functionalized Multilayer Graphene..
Chem. Mater.. 26, 1807–1812.
Cernat, A., Le Goff A., Holzinger M., Sandulescu R., & Cosnier S.
(2014). Micro- to nanostructured poly(pyrrole-nitrilotriacetic acid) films via nanosphere templates: applications to 3D enzyme attachment by affinity interactions..
Anal. Bioanal. Chem.. 406, 1141–1147.
Holzinger, M., Le Goff A., & Cosnier S.
(2014). Nanomaterials for biosensing applications: a review..
Front. Chem. (Lausanne, Switzerland). 2, 1–10.
Singh, M., Holzinger M., Tabrizian M., & Cosnier S.
(2014). Nanotubes and nanoparticles based 3D scaffolds for the construction of high performance biosensors..
MRS Online Proc. Libr.. 1700, 535/1–535/6, 6 pp..
Holzinger, M., Le Goff A., & Cosnier S.
(2014). Supramolecular immobilization of bio-entities for bioelectrochemical applications..
New J. Chem.. 38, 5173–5180.
Agnes, C., Holzinger M., Le Goff A., Reuillard B., Elouarzaki K., Tingry S., et al.
(2014). Supercapacitor/biofuel cell hybrids based on wired enzymes on carbon nanotube matrices: autonomous reloading after high power pulses in neutral buffered glucose solutions..
Energy Environ. Sci.. 7, 1884–1888.
Agnes, C., Reuillard B., Le Goff A., Holzinger M., & Cosnier S.
(2013). A double-walled carbon nanotube-based glucose/H2O2 biofuel cell operating under physiological conditions..
Electrochem. commun.. 34, 105–108.
Keeley, G. P., O'Neill A., Holzinger M., Cosnier S., Coleman J. N., & Duesberg G. S.
(2013). Prussian blue-functionalised graphene in the amperometric detection of peroxide and hydrazine.
TECHNOLOGY. 01, 58-62.
Zebda, A., Cosnier S., Alcaraz J.-P.., Holzinger M., Le Goff A., Gondran C., et al.
(2013). Single glucose biofuel cells implanted in rats power electronic devices..
Sci. Rep.. 3, 1516, 5 pp..
Bourourou, M., Elouarzaki K., Lalaoui N., Agnes C., Le Goff A., Holzinger M., et al.
(2013). Supramolecular immobilization of laccase on carbon nanotube electrodes functionalized with methylpyrenylaminomethyl anthraquinone for direct electron reduction of oxygen..
Chem. - A Eur. J.. 19, 9371–9375.
Seven, B., Bourourou M., Elouarzaki K., Constant J-F., Gondran C., Holzinger M., et al.
(2013). Impedimetric biosensor for cancer cell detection..
Electrochem. commun.. 37, 36–39.
Yao, W., Le Goff A., Spinelli N., Holzinger M., Diao G-W., Shan D., et al.
(2013). Electrogenerated trisbipyridyl Ru(II)-/nitrilotriacetic-polypyrene copolymer for the easy fabrication of label-free photoelectrochemical immunosensor and aptasensor: Application to the determination of thrombin and anti-cholera toxin antibody..
Biosens. Bioelectron.. 42, 556–562.
Singh, M., Holzinger M., Biloivan O., & Cosnier S.
(2013). 3D-nanostructured scaffold electrodes based on single-walled carbon nanotubes and nanodiamonds for high performance biosensors..
Carbon N. Y.. 61, 349–356.
Reuillard, B., Le Goff A., Agnes C., Holzinger M., Zebda A., Gondran C., et al.
(2013). High power enzymatic biofuel cell based on naphthoquinone-mediated oxidation of glucose by glucose oxidase in a carbon nanotube 3D matrix..
Phys. Chem. Chem. Phys.. 15, 4892–4896.
Lalaoui, N., Elouarzaki K., Le Goff A., Holzinger M., & Cosnier S.
(2013). Efficient direct oxygen reduction by laccases attached and oriented on pyrene-functionalized polypyrrole/carbon nanotube electrodes..
Chem. Commun. (Cambridge, United Kingdom). 49, 9281–9283.
Holzinger, M., Singh M., & Cosnier S.
(2012). Biotin-$\beta$-Cyclodextrin: A New Host-Guest System for the Immobilization of Biomolecules..
Langmuir. 28, 12569–12574.
Elouarzaki, K., Le Goff A., Holzinger M., Thery J., & Cosnier S.
(2012). Electrocatalytic Oxidation of Glucose by Rhodium Porphyrin-Functionalized MWCNT Electrodes: Application to a Fully Molecular Catalyst-Based Glucose/O2 Fuel Cell..
J. Am. Chem. Soc.. 134, 14078–14085.
Haddad, R., Gorgy K., Holzinger M., & Cosnier S.
(2012). In situ synthesis of stable mixed ligand Fe2+ complexes on bipyridinyl functionalized electrodes and nanotube supports..
Chem. Commun. (Cambridge, United Kingdom). 48, 6121–6123.
Keeley, G. P., McEvoy N., Nolan H., Kumar S., Rezvani E., Holzinger M., et al.
(2012). Simultaneous electrochemical determination of dopamine and paracetamol based on thin pyrolytic carbon films..
Anal. Methods. 4, 2048–2053.
Reuillard, B., Le Goff A., Agnes C., Zebda A., Holzinger M., & Cosnier S.
(2012). Direct electron transfer between tyrosinase and multi-walled carbon nanotubes for bioelectrocatalytic oxygen reduction..
Electrochem. commun.. 20, 19–22.
Holzinger, M., Le Goff A., & Cosnier S.
(2012). Carbon nanotube/enzyme biofuel cells..
Electrochim. Acta. 82, 179–190.
Cosnier, S., & Holzinger M.
(2011). Electrosynthesized polymers for biosensing..
Chem. Soc. Rev.. 40, 2146–2156.
Le Goff, A., Holzinger M., & Cosnier S.
(2011). Enzymatic biosensors based on SWCNT-conducting polymer electrodes..
Anal. (Cambridge, United Kingdom). 136, 1279–1287.
Baur, J., Le Goff A., Dementin S., Holzinger M., Rousset M., & Cosnier S.
(2011). Three-dimensional carbon nanotube-polypyrrole-[NiFe] hydrogenase electrodes for the efficient electrocatalytic oxidation of H2..
Int. J. Hydrogen Energy. 36, 12096–12101.
Zebda, A., Gondran C., Le Goff A., Holzinger M., Cinquin P., & Cosnier S.
(2011). Mediatorless high-power glucose biofuel cells based on compressed carbon nanotube-enzyme electrodes..
Nat. Commun.. 2, 1365/1–1365/6, S1365/1–S1365/3.
Le Goff, A., Gorgy K., Holzinger M., Haddad R., Zimmerman M., & Cosnier S.
(2011). Tris(bispyrene-bipyridine)iron(II): A Supramolecular Bridge for the Biofunctionalization of Carbon Nanotubes via $π$-stacking and Pyrene/$\beta$-Cyclodextrin Host-Guest Interactions..
Chem. - A Eur. J.. 17, 10216–10221.
Le Goff, A., Holzinger M., & Cosnier S.
(2011). Characterization of multi-walled carbon nanotube electrodes functionalized by electropolymerized tris(pyrrole-ether bipyridine) ruthenium (II)..
Electrochim. Acta. 56, 3633–3640.
Haddad, R., Holzinger M., Villalonga R., Neumann A., Roots J., Maaref A., et al.
(2011). Pyrene-adamantane-$\beta$-cyclodextrin: An efficient host-guest system for the biofunctionalization of SWCNT electrodes..
Carbon N. Y.. 49, 2571–2578.
Chen, M., Xu J-Q., Ding S-N., Shan D., Xue H-G., Cosnier S., et al.
(2011). Poly(brilliant cresyl blue) electrogenerated on single-walled carbon nanotubes modified electrode and its application in mediated biosensing system..
Sensors Actuators, B Chem.. 152, 14–20.
Holzinger, M., Baur J., Haddad R., Wang X., & Cosnier S.
(2011). Multiple functionalization of single-walled carbon nanotubes by dip coating..
Chem. Commun. (Cambridge, United Kingdom). 47, 2450–2452.
Baur, J., Gondran C., Holzinger M., Defrancq E., Perrot H., & Cosnier S.
(2010). Label-free femtomolar detection of target DNA by impedimetric DNA sensor based on poly(pyrrole-nitrilotriacetic acid) film..
Anal. Chem. (Washington, DC, United States). 82, 1066–1072.
Silveira, C. M., Baur J., Holzinger M., Moura J. J. G., Cosnier S., & M Almeida G..
(2010). Enhanced direct electron transfer of a multihemic nitrite reductase on single-walled carbon nanotube modified electrodes..
Electroanalysis. 22, 2973–2978.
Haddad, R., Holzinger M., Maaref A., & Cosnier S.
(2010). Pyrene functionalized single-walled carbon nanotubes as precursors for high performance biosensors..
Electrochim. Acta. 55, 7800–7803.
Baur, J., Holzinger M., Gondran C., & Cosnier S.
(2010). Immobilization of biotinylated biomolecules onto electropolymerized poly(pyrrole-nitrilotriacetic acid)-Cu2+ film..
Electrochem. commun.. 12, 1287–1290.
Haddad, R., Cosnier S., Maaref A., & Holzinger M.
(2009). Non-covalent biofunctionalization of single-walled carbon nanotubes via biotin attachment by $π$-stacking interactions and pyrrole polymerization..
Anal. (Cambridge, United Kingdom). 134, 2412–2418.
Holzinger, M., Haddad R., Maaref A., & Cosnier S.
(2009). Amperometric biosensors based on biotinylated single-walled carbon nanotubes..
J. Nanosci. Nanotechnol.. 9, 6042–6046.
Cosnier, S., Ding S-N., Pellissier A., Gorgy K., Holzinger M., Lopez B. Perez, et al.
(2009). Permeability improvement of electropolymerized polypyrrole films in water using magnetic hydrophilic microbeads..
Electroanalysis. 21, 887–890.
Holzinger, M., Bouffier L., Villalonga R., & Cosnier S.
(2009). Adamantane/$\beta$-cyclodextrin affinity biosensors based on single-walled carbon nanotubes..
Biosens. Bioelectron.. 24, 1128–1134.
Ding, S-N., Cosnier S., Holzinger M., & Wang X..
(2008). Electrochemical fabrication of novel fluorescent polymeric film: Poly(pyrrole-pyrene)..
Electrochem. commun.. 10, 1423–1426.
Cosnier, S., & Holzinger M.
(2008). Design of carbon nanotube-polymer frameworks by electropolymerization of SWCNT-pyrrole derivatives..
Electrochim. Acta. 53, 3948–3954.
Short CV
Michael Holzinger works since the late nineties in the field of functionalization of single-walled carbon nanotubes and was one of the first organic chemist in Europe who worked in this field. During his Ph.D work in the group of Prof. Dr. Hirsch at the Institute of Organic Chemistry, University Erlangen-Nürnberg, Germany, he firstly reported several new organic chemical reactions for the exoheral modification of nanotubes like the attachment of radicals or nitrenes and participated to further functionalization methods like the cycloaddition of azomethineylides. His pioneering work contributed to a better processability of this exeptional material.
After his Ph.D. he joined the group of Patrick Bernier at the university Montpellier II, France, where he worked on the fabrication of reinforced carbon nanotube composites and the optimization of the production of carbon nanotubes and nitrogen-doped carbon nanotubes.
He worked at the Max Planck Institute for solid state research in Stuttgart, Germany, in the group of Sigmar Roth where he developed a new functionalization method for such hetero nanotubes.
After a short stay at the Robert Bosch GmbH in Schwieberdingen, he joint the group BEA of Serge Cosnier in 2006. Since that time his research interest is focused on the development of biosensors and biofuel cells based on functionalized nanomaterials.
He received the researcher award of the Analytical Chemistry Division of the French Chemical Society (SCF) in 2013 where he also was elected distinguished junior member.
Editorial Activities
- Associate Editor of Frontiers in Analytical Chemistry (Swiss Publisher + Nature Publishing Group)
- Editorial Board member of Carbon (Elsevier)
