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INSyGHT Activités

ThématiqueS      MeMBRES 

2026
1. Mechanistic insights into bioelectrocatalytic activity of encapsulated enzyme in metal–organic frameworks and its tandem catalysis with Prussian-blue nanoparticles. M., C. Aymard, A. Zebda, S. Tsujimura. Biosensors & Bioelectronics, 296, 118326
2. Electrochemically deposited nanoporous gold electrodes on carbon substrate for efficient direct electron transfer with bilirubin. T. Lecourt, M. Zelsmann, S. Tsujimura, A. Zebda. ACS Applied Energy Materials (accepted, 2026)
2025
3. A self-assembled nanocomplex from starch-protein-fatty acid: Thermodynamics of self-assembly. D. Bhopatkar, B.R. Hamaker, N. Khalef, A. Bakri, O.H. Campanella. Journal of Pharmaceutical Sciences 114 (12), 104018
4. Gender disparities persist within French biotech startup companies despite progress. N. Khalef, D. Catherine, A. Revelen, A. Bakri. Nature Biotechnology 43, 1389-1392
5. In-situ n-doped 3D-printed abiotic cathodes for implantable biofuel cells. M. Ghodhbane, D. Beneventi, L. Dubois, A. Zebda, D. Chaussy, N. Belgacem. Journal of Applied Electrochemistry 55, 123-129
2024
6. Matrix design for optimal pancreatic β cells transplantation. N. Rajkumari, I. Shalayel, E. Tubbs, Q. Perrier, C. Chabert, S. Lablanche, P.-Y. Benhamou, C. Arnol, L. Gredy, T. Divoux, O. Stephan, A. Zebda, B. van der Sanden. Biomaterials Advances 164, 213980
7. Effects of cross-linker chemistry on bioelectrocatalytic reactions in a redox cross-linked network of glucose dehydrogenase and thionine. M.M. Hossain, M. Rezki, I. Shalayel, A. Zebda, S. Tsujimura. ACS Applied Materials & Interfaces 16, 44004-44017
2023
8. A disposable enzymatic biofuel cell for glucose sensing via short-circuit current. J. Morshed, M. Hossain, A. Zebda, S. Tsujimura. Biosensors and Bioelectronics 230, 115272
9. Study of genipin behavior in neutral and acidic aqueous solutions at elevated temperatures. I. Shalayel, Y. Vallee, A. Zebda. ChemistrySelect 8 (14), e202204705
10. 3D printed cathodes for implantable abiotic biofuel cells. M. Ghodhbane, D. Beneventi, A. Zebda, L. Dubois, J.P. Alcaraz, F. Boucher, J. Boutonnat, G. Menassol, D. Chaussy, N. Belgacem. Journal of Power Sources 580, 233356
11. Hierarchical structure of gold and carbon electrode for bilirubin oxidase-biocathode. Y. Nakagawa, S. Tsujimura, M. Zelsmann, A. Zebda. Biosensors 13 (4), 482
12. A biocompatible iron doped graphene based cathode for an implantable glucose biofuel cell. G. Menassol, L. Dubois, M. Nadolska, P. Vadgama, D.K. Martin, A. Zebda. Electrochimica Acta 439, 141627
13. Flexible doctor blade-coated abiotic cathodes for implantable glucose/oxygen biofuel cells. M. Ghodhbane, G. Menassol, D. Beneventi, D. Chaussy, L. Dubois, A. Zebda, M.N. Belgacem. RSC Advances 13 (6), 3877-3889
14. Investigation of GOx stability in a chitosan matrix: applications for enzymatic electrodes. A. Chmayssem, I. Shalayel, S. Marinesco, A. Zebda. Sensors 23 (1), 465 (2023)
15. Adsorption of laccase on multi-walled carbon nanotubes. A. Ben Tahar, A. Suherman, A. Boualam, S. Tsujimura, A. Zebda. Electrochemistry 23-68122
2022
16. Influence of Hofmeister anions on structural and thermal properties of a starch-protein-lipid nanocomplex. D. Bhopatkar, O.K. Ozturk, N. Khalef, G. Zhang, O.H. Campanella, B.R. Hamaker. International Journal of Biological Macromolecules 210, 768-775
17. Impact of lactic acid and genipin concentration on physicochemical and mechanical properties of chitosan membranes. I. Kondratowicz, I. Shalayel, M. Nadolska, S. Tsujimura, Y. Yamagata, A. Zebda. Journal of Polymers and the Environment, 1-11
18. Electrochemical biosensing of glucose based on the enzymatic reduction of glucose. T. Soranzo, A. Ben Tahar, A. Chmayssem, M. Zelsmann, P. Vadgama, A. Zebda. Sensors 22 (19), 7105
19. New microfluidic system for electrochemical impedance spectroscopy assessment of cell culture performance: design and development of new electrode material. A. Chmayssem, C.E. Tanase, N. Verplanck, M. Gougis, V. Mourier, A. Zebda, P. Mailley. Biosensors 12 (7), 452
2021
20. Chitosan-based enzyme ink for screen-printed bioanodes. I. Shitanda, K. Oda, N. Loew, H. Watanabe, M. Itagaki, S. Tsujimura, A. Zebda. RSC Advances 11 (33), 20550-20556
21. Ultrasound-stimulated Brownian ratchet enhances diffusion of molecules retained in hydrogels. F. Gerayeli, N. Khalef, A. Bakri, P. Benech, D.K. Martin. Nanomedicine: Nanotechnology, Biology and Medicine 31, 102308
2020
22. Mediated electrochemical oxidation of glucose via poly(methylene green) grafted on the carbon surface catalyzed by flavin adenine dinucleotide-dependent glucose dehydrogenase. N. Tsuruoka, S.S. Soto, A.B. Tahar, A. Zebda, S. Tsujimura. Colloids and Surfaces B: Biointerfaces 192, 111065
23. The biocompatibility of biofuel cells operating inside the body. G. Penven, G. Menassol, J.P. Alcaraz, F. Boucher, J. Thélu, S. El Ichi, L. Dubois, A. Zebda, P. Cinquin, D.K. Martin. Biochemical Society Transactions 48 (3), 867-879 
24. High catalytic performance of laccase wired to naphthylated multiwall carbon nanotubes. A.B. Tahar, K. Żelechowska, J.F. Biernat, E. Paluszkiewicz, P. Cinquin, A. Zebda. Biosensors and Bioelectronics 151, 111961 
25. Challenges for the implantation of symbiotic nanostructured medical devices. J.P. Alcaraz, G. Menassol, G. Penven, J. Thélu, S. El Ichi, A. Zebda, P. Cinquin, D.K. Martin. Applied Sciences 10 (8), 2923 
2019
26. A PANI supported lipid bilayer that contains NhaA transporter proteins provides a basis for a biomimetic biocapacitor. A. Ben Tahar, A. Zebda, J.P. Alcaraz, L. Gayet, A. Boualam, P. Cinquin, D.K. Martin. Chemical Communications 55 (87), 13152-13155
27. One-year stability of glucose dehydrogenase confined in a 3D carbon nanotube electrode with coated poly-methylene green: application as bioanode for a glucose biofuel cell. A.B. Tahar, A. Szymczyk, S. Tingry, P. Vadgama, M. Zelsmann, S. Tsujimura, P. Cinquin, D.K. Martin, A. Zebda. Journal of Electroanalytical Chemistry 847, 113069
28. High-performance enzymatic biofuel cell based on flexible carbon cloth modified with MgO-templated porous carbon. A. Niiyama, K. Murata, Y. Shigemori, A. Zebda, S. Tsujimura. Journal of Power Sources 427, 49-55
2018
29. Building on biomimetics: nanotechnology and novel medical devices. D. Martin, J.P. Alcaraz, A.B. Tahar, P. Cinquin, F. Gerayeli, P. Harispuru, [...], A. Zebda. Journal of Biotechnology 280, S8-S9
30. Remote wireless control of an enzymatic biofuel cell implanted in a rabbit for 2 months. S. El Ichi-Ribault, J.P. Alcaraz, F. Boucher, B. Boutaud, R. Dalmolin, A. Zebda, D.K. Martin. Electrochimica Acta 269, 360-366 
31. Optimization of laccase adsorption-desorption behaviors on multi-walled carbon nanotubes for enzymatic biocathodes. A.L. Suherman, A. Zebda, D.K. Martin. Makara Journal of Science, 52-58 (2018)
2017
32. Performance and stability of chitosan-MWCNTs-laccase biocathode: effect of MWCNTs surface charges and ionic strength. S. El Ichi-Ribault, A. Zebda, S. Tingry, M. Petit, A.L. Suherman, A. Boualam. Journal of Electroanalytical Chemistry 799, 26-33 (2017)
2016
33. Laccase-based biocathodes: comparison of chitosan and Nafion. S. El Ichi-Ribault, A. Zebda, A. Laaroussi, N. Reverdy-Bruas, D. Chaussy, P. Cinquin, D.K. Martin. Analytica Chimica Acta 937, 43-52 
34. Shades of grays for implanting an enzymatic biofuel cell. J.P. Alcaraz, S.E. Ichi-Ribault, L. Cortella, C. Guimier-Pingault, A. Zebda, P. Cinquin, D.K. Martin. Médecine Sciences: M/S 32 (8-9), 771-773 
35. Isothermal calorimetry: methods and applications in food and pharmaceutical fields. N. Khalef, O. Campanella, A. Bakri. Current Opinion in Food Science 9, 70-76
2015
36. Bioelectrodes modified with chitosan for long-term energy supply from the body. S. El Ichi, A. Zebda, J.P. Alcaraz, A. Laaroussi, F. Boucher, J. Boutonnat, D.K. Martin. Energy & Environmental Science 8 (3), 1017-1026
2014
37. Biocompatible implantable biofuel cell. S. El Ichi, A. Zebda, J.P. Alcaraz, F. Boucher, J. Boutonnat, P. Cinquin, D.K. Martin. 2014 IEEE Conference on Biomedical Engineering and Sciences (IECBES), 51-55 
2013
38. Chitosan improves stability of carbon nanotube biocathodes for glucose biofuel cells. S. El Ichi, A. Zebda, A. Laaroussi, N. Reverdy-Bruas, D. Chaussy, D.K. Martin. Chemical Communications 50 (93), 14535-14538 
39. Single glucose biofuel cells implanted in rats power electronic devices. A. Zebda, S. Cosnier, J.P. Alcaraz, M. Holzinger, A. Le Goff, C. Gondran, P. Cinquin. Scientific Reports 3 (1), 1-5
40. High power enzymatic biofuel cell based on naphthoquinone-mediated oxidation of glucose by glucose oxidase in a carbon nanotube 3D matrix. B. Reuillard, A. Le Goff, C. Agnes, M. Holzinger, A. Zebda, C. Gondran, S. Cosnier. Physical Chemistry Chemical Physics 15 (14), 4892-4896
2012
41. Glucose biofuel cell construction based on enzyme, graphite particle and redox mediator compression. A. Zebda, C. Gondran, P. Cinquin, S. Cosnier. Sensors and Actuators B: Chemical 173, 760-764 
42. Biomimetic membrane system composed of a composite interpenetrating hydrogel film and a lipid bilayer. B. Stidder, J.P. Alcaraz, L. Liguori, N. Khalef, A. Bakri, E.B. Watkins, P. Cinquin, D.K. Martin. Advanced Functional Materials 22 (20), 4259-4267
 

 

Publié le 13 mars 2025

Mis à jour le 3 juillet 2026