Cellulose-based ionic conductor: An emerging material toward sustainable devices
Ionic conductors (ICs) find widespread applications across different fields, such as smart
electronic, ionotronic, sensor, biomedical, and energy harvesting/storage devices, and …
electronic, ionotronic, sensor, biomedical, and energy harvesting/storage devices, and …
[HTML][HTML] Emerging technologies for the production of nanocellulose from lignocellulosic biomass
Nanocellulose is a unique and promising natural nanomaterial and has gained significant
attention due to its applications in several important areas. Thus, researchers are …
attention due to its applications in several important areas. Thus, researchers are …
Advances in bioresorbable materials and electronics
Transient electronic systems represent an emerging class of technology that is defined by an
ability to fully or partially dissolve, disintegrate, or otherwise disappear at controlled rates or …
ability to fully or partially dissolve, disintegrate, or otherwise disappear at controlled rates or …
Advances in bioresorbable triboelectric nanogenerators
With the growing demand for next-generation health care, the integration of electronic
components into implantable medical devices (IMDs) has become a vital factor in achieving …
components into implantable medical devices (IMDs) has become a vital factor in achieving …
Design and fabrication strategies of cellulose nanocrystal-based hydrogel and its highlighted application using 3D printing: A review
To eliminate the potential toxicity and biological incompatibility from hydrogels prepared
using synthetic polymers, researchers have paid tremendous efforts to design hydrogels …
using synthetic polymers, researchers have paid tremendous efforts to design hydrogels …
A review on emerging biodegradable polymers for environmentally benign transient electronic skins
Biodegradable or transient electronics is an emerging technology whose key characteristic
is an ability to dissolve, resorb, physically disappear or disintegrate in physiological …
is an ability to dissolve, resorb, physically disappear or disintegrate in physiological …
Natural, biocompatible, and 3D-printable gelatin eutectogels reinforced with tannic acid-coated cellulose nanocrystals for sensitive strain sensors
PA Mercadal, MR Romero… - ACS Applied …, 2023 - ACS Publications
Ionic gels from eutectic mixtures are attracting extensive interest in bioelectronics owing to
their nonvolatile nature, low cost, and inherently high ionic conductivity. Biodegradable …
their nonvolatile nature, low cost, and inherently high ionic conductivity. Biodegradable …
Biotechnological innovations in nanocellulose production from waste biomass with a focus on pineapple waste
New materials' synthesis and utilization have shown many critical challenges in healthcare
and other industrial sectors as most of these materials are directly or indirectly developed …
and other industrial sectors as most of these materials are directly or indirectly developed …
Impact of counterion valency on the rheology of sulfonated cellulose nanocrystal hydrogels
K Nyamayaro, P Mehrkhodavandi… - Carbohydrate Polymers, 2023 - Elsevier
A systematic rheological study on the influence of valency of different counterions on the
properties of CNC hydrogels was carried out. Rheo-polarized microscopy was used to prove …
properties of CNC hydrogels was carried out. Rheo-polarized microscopy was used to prove …
Tough transient ionic junctions printed with ionic microgels
Emerging soft ionotronics better match the human body mechanically and electrically
compared to conventional rigid electronics. They hold great potential for human‐machine …
compared to conventional rigid electronics. They hold great potential for human‐machine …