TEMPO-oxidized cellulose nanofibrils (TOCN) are pH-responsive biopolymers which undergo sol–gel transition at acidic conditions (pH < 4) due to charge neutralization. Electronically conducting materials can be coated by such gels during aqueous electrolysis, when an electrochemical reaction generates a local pH decrease at the electrode surface. In this work, electro-precipitation of different TOCN gels has been performed on oxygen evolving anodes. We demonstrate that TOCN hydrogels can be electrochemically coated on the surface of any conductive material with even complex 3D shape. Further, not only TOCN but also micro- or nanosized particles containing TOCN composites can be coated on the electrode surface, and coatings containing mult...
The seamless integration of electronics with living matter requires advanced materials with programm...
International audienceThe electrodeposition of hydrogels provides a programmable means to assemble s...
Ionically-conductive and stretchable hydrogels are ideally suited for the synthesis of flexible elec...
The trend of research towards more sustainable materials is pushing the application of biopolymers i...
The current work aims at understanding factors that influence the processability of nanographite-nan...
Progress in the chemical sciences has formed the world we live in, both on a macroscopic and on a na...
The fabrication of protected peptide-based hydrogels on electrode surfaces can be achieved by employ...
Nanocellulose has received considerable interest during the last decade because it is renewable and ...
This study presents a process for preparation of cellulose–lignin barrier coatings for hot-dip galva...
Electrochemical techniques are used to investigate the physical and chemical properties for differen...
As the most promising candidate for replacing conventional rigid and brittle inorganic conductive ma...
The current work aims at understanding factors that influence the processability of nanographite–nan...
Hydrogels have emerged as promising porous soft materials from which to develop a wide range of bios...
Electrode modifications for electrochemical sensors attract a lot of attention every year. Among the...
Nanocellulose has emerged as a sustainable and promising nanomaterial owing to its unique structures...
The seamless integration of electronics with living matter requires advanced materials with programm...
International audienceThe electrodeposition of hydrogels provides a programmable means to assemble s...
Ionically-conductive and stretchable hydrogels are ideally suited for the synthesis of flexible elec...
The trend of research towards more sustainable materials is pushing the application of biopolymers i...
The current work aims at understanding factors that influence the processability of nanographite-nan...
Progress in the chemical sciences has formed the world we live in, both on a macroscopic and on a na...
The fabrication of protected peptide-based hydrogels on electrode surfaces can be achieved by employ...
Nanocellulose has received considerable interest during the last decade because it is renewable and ...
This study presents a process for preparation of cellulose–lignin barrier coatings for hot-dip galva...
Electrochemical techniques are used to investigate the physical and chemical properties for differen...
As the most promising candidate for replacing conventional rigid and brittle inorganic conductive ma...
The current work aims at understanding factors that influence the processability of nanographite–nan...
Hydrogels have emerged as promising porous soft materials from which to develop a wide range of bios...
Electrode modifications for electrochemical sensors attract a lot of attention every year. Among the...
Nanocellulose has emerged as a sustainable and promising nanomaterial owing to its unique structures...
The seamless integration of electronics with living matter requires advanced materials with programm...
International audienceThe electrodeposition of hydrogels provides a programmable means to assemble s...
Ionically-conductive and stretchable hydrogels are ideally suited for the synthesis of flexible elec...