Bacterial cellulose: Molecular regulation of biosynthesis, supramolecular assembly, and tailored structural and functional properties

S Manan, MW Ullah, M Ul-Islam, Z Shi… - Progress in Materials …, 2022 - Elsevier
Among the different types of nanocellulose being investigated, bacterial cellulose (BC) or
bacterial nanocellulose (BNC) is receiving tremendous attention due to its purity and …

Bacterial cellulose hydrogel for sensors

X Pan, J Li, N Ma, X Ma, M Gao - Chemical Engineering Journal, 2023 - Elsevier
Biohydrogel–based flexible sensors have attracted enormous and growing attention for
personalized mobile equipment, human–machine interface units, wearable medical …

Perspectives on recent advancements in energy harvesting, sensing and bio-medical applications of piezoelectric gels

T Vijayakanth, S Shankar, G Finkelstein-Zuta… - Chemical Society …, 2023 - pubs.rsc.org
The development of next-generation bioelectronics, as well as the powering of consumer
and medical devices, require power sources that are soft, flexible, extensible, and even …

Fabric‐based TENG woven with bio‐fabricated superhydrophobic bacterial cellulose fiber for energy harvesting and motion detection

K Chen, Y Li, G Yang, S Hu, Z Shi… - Advanced Functional …, 2023 - Wiley Online Library
Fabric‐based triboelectric nanogenerators (TENGs) exhibit superior output performance,
flexibility, and wearability. However, the fabric structure often creates gaps that accumulate …

Conductive hydrogels for bioenergy harvesting and self-powered application

C Zhang, MOG Nayeem, Z Wang, X Pu… - Progress in Materials …, 2023 - Elsevier
Conductive hydrogels (CHs) are characterized by tissue-like mechanical properties, multiple
stimuli-responsive abilities and favourable biocompatibility, enabling their wearable devices …

Highly conductive and anti-freezing cellulose hydrogel for flexible sensors

L Shu, Z Wang, XF Zhang, J Yao - International Journal of Biological …, 2023 - Elsevier
Ionic conducting hydrogels (ICHs) are emerging materials for multi-functional sensors in the
fields of healthcare monitoring and flexible electronics. However, there is a long-standing …

Biodegradable piezoelectric polymers: recent advancements in materials and applications

M Ali, MJ Bathaei, E Istif, SNH Karimi… - Advanced Healthcare …, 2023 - Wiley Online Library
Recent materials, microfabrication, and biotechnology improvements have introduced
numerous exciting bioelectronic devices based on piezoelectric materials. There is an …

Unveiling innovative design of customizable adhesive flexible devices from self-healing ionogels with robust adhesion and sustainability

Y Zheng, T Cui, J Wang, H Ge, Z Gui - Chemical Engineering Journal, 2023 - Elsevier
Self-adhesive intelligent flexible devices have opened a plethora of innovative possibilities
for interfacial flexible electronics, including specific applications such as bioelectronic …

A stretchable, biocompatible, and self-powered hydrogel multichannel wireless sensor system based on piezoelectric barium titanate nanoparticles for health …

R Fu, X Zhong, C Xiao, J Lin, Y Guan, Y Tian, Z Zhou… - Nano Energy, 2023 - Elsevier
Piezoelectric hydrogel-based sensors have emerged as a promising technology for
accurately monitoring various physiological signals of the human body without the need for …

TEMPO bacterial cellulose and MXene nanosheets synergistically promote tough hydrogels for intelligent wearable human-machine interaction

B Dong, D Yu, P Lu, Z Song, W Chen, F Zhang… - Carbohydrate …, 2024 - Elsevier
Conductive hydrogels have received increasing attention in the field of wearable electronics,
but they also face many challenges such as temperature tolerance, biocompatibility, and …