Cationic Cellulose Nanocrystals-Based Nanocomposite Hydrogels: Achieving 3D Printable Capacitive Sensors with High Transparency and Mechanical Strength

3D printing of conducting polymers

(2020) Hyunwoo Yuk et al.   Nature Communications

3D Printable Strain Sensors from Deep Eutectic Solvents and Cellulose Nanocrystals

(2020) Chun-Wei Lai et al.   ACS Applied Materials & Interfaces

Recent Developments in Cellulose Nanomaterial Composites

(2020) Caitlyn M. Clarkson et al.   ADVANCED MATERIALS

Highly Stretchable and Transparent Double-Network Hydrogel Ionic Conductors as Flexible Thermal–Mechanical Dual Sensors and Electroluminescent Devices

(2019) Bowen Yang et al.   ACS Applied Materials & Interfaces

Polyvinyl Alcohol/Silk Fibroin/Borax Hydrogel Ionotronics: A Highly Stretchable, Self-Healable, and Biocompatible Sensing Platform

(2019) Ningning Yang et al.   ACS Applied Materials & Interfaces

Advanced Soft Materials, Sensor Integrations, and Applications of Wearable Flexible Hybrid Electronics in Healthcare, Energy, and Environment

(2019) Hyo‐Ryoung Lim et al.   ADVANCED MATERIALS

Highly Stretchable, Adhesive, and Mechanical Zwitterionic Nanocomposite Hydrogel Biomimetic Skin

(2019) Bowen Yang et al.   ACS Applied Materials & Interfaces

Direct-Ink-Write 3D Printing of Hydrogels into Biomimetic Soft Robots

(2019) Yin Cheng et al.   ACS Nano

Bioinspired Dynamic Cross-Linking Hydrogel Sensors with Skin-like Strain and Pressure Sensing Behaviors

(2019) Shan Xia et al.   CHEMISTRY OF MATERIALS

Scalable and Automated Fabrication of Conductive Tough-Hydrogel Microfibers with Ultrastretchability, 3D Printability, and Stress Sensitivity

(2018) Shanshan Wei et al.   ACS Applied Materials & Interfaces

Dynamics of Cellulose Nanocrystal Alignment during 3D Printing

(2018) Michael K. Hausmann et al.   ACS Nano

Responsive Materials: 3D Printing of Living Responsive Materials and Devices (Adv. Mater. 4/2018)

(2018) Xinyue Liu et al.   ADVANCED MATERIALS

Mussel-Inspired Cellulose Nanocomposite Tough Hydrogels with Synergistic Self-Healing, Adhesive, and Strain-Sensitive Properties

(2018) Changyou Shao et al.   CHEMISTRY OF MATERIALS

A supramolecular biomimetic skin combining a wide spectrum of mechanical properties and multiple sensory capabilities

(2018) Zhouyue Lei et al.   Nature Communications

Effect of Cationic Surface Modification on the Rheological Behavior and Microstructure of Nanocrystalline Cellulose

(2018) Yanjun Tang et al.   Polymers

Direct Ink Write 3D Printed Cellulose Nanofiber Aerogel Structures with Highly Deformable, Shape Recoverable, and Functionalizable Properties

(2018) Vincent C. F. Li et al.   ACS Sustainable Chemistry & Engineering

Hydrogel ionotronics

(2018) Canhui Yang et al.   Nature Reviews Materials

Extremely Stretchable, Stable, and Durable Strain Sensors Based on Double-Network Organogels

(2018) Haoxiang Zhang et al.   ACS Applied Materials & Interfaces

Ceramic Robocasting: Recent Achievements, Potential, and Future Developments

(2018) Erwin Peng et al.   ADVANCED MATERIALS

Rheology and microstructure of aqueous suspensions of nanocrystalline cellulose rods

(2017) Yuan Xu et al.   JOURNAL OF COLLOID AND INTERFACE SCIENCE

Design and development of trivalent aluminum ions induced self-healing polyacrylic acid novel hydrogels

(2017) Sadiya Anjum et al.   POLYMER

A multifunctional skin-like sensor based on a 3D printed thermo-responsive hydrogel

(2017) Zhouyue Lei et al.   Materials Horizons

Direct Ink Write (DIW) 3D Printed Cellulose Nanocrystal Aerogel Structures

(2017) Vincent Chi-Fung Li et al.   Scientific Reports

Improvement of Mechanical Strength and Fatigue Resistance of Double Network Hydrogels by Ionic Coordination Interactions

(2016) Qiang Chen et al.   CHEMISTRY OF MATERIALS

Benchmarking Cellulose Nanocrystals: From the Laboratory to Industrial Production

(2016) Michael S. Reid et al.   LANGMUIR

Cationic surface modification of cellulose nanocrystals: Toward tailoring dispersion and interface in carboxymethyl cellulose films

(2016) Mei-Chun Li et al.   POLYMER

Highly stretchable, transparent ionic touch panel

(2016) C.-C. Kim et al.   SCIENCE

All-Cellulose Nanocomposites Reinforced with in Situ Retained Cellulose Nanocrystals during Selective Dissolution of Cellulose in an Ionic Liquid

(2016) Jinming Zhang et al.   ACS Sustainable Chemistry & Engineering

Self-Healable, Tough, and Ultrastretchable Nanocomposite Hydrogels Based on Reversible Polyacrylamide/Montmorillonite Adsorption

(2015) Guorong Gao et al.   ACS Applied Materials & Interfaces

Direct 3D Printing of Shear-Thinning Hydrogels into Self-Healing Hydrogels

(2015) Christopher B. Highley et al.   ADVANCED MATERIALS

Simultaneous Enhancement of Stiffness and Toughness in Hybrid Double-Network Hydrogels via the First, Physically Linked Network

(2015) Qiang Chen et al.   MACROMOLECULES

Ionic skin

(2014) Jeong-Yun Sun et al.   ADVANCED MATERIALS

Cellulose nanocrystals and related nanocomposites: Review of some properties and challenges

(2014) Marcos Mariano et al.   JOURNAL OF POLYMER SCIENCE PART B-POLYMER PHYSICS

Cellulose Nanocrystals Mechanical Reinforcement in Composite Hydrogels with Multiple Cross-Links: Correlations between Dissipation Properties and Deformation Mechanisms

(2014) Jun Yang et al.   MACROMOLECULES

Key advances in the chemical modification of nanocelluloses

(2013) Youssef Habibi   CHEMICAL SOCIETY REVIEWS

Synthesis of Highly Stretchable, Mechanically Tough, Zwitterionic Sulfobetaine Nanocomposite Gels with Controlled Thermosensitivities

(2013) Jinyan Ning et al.   MACROMOLECULES

Physical hydrogels composed of polyampholytes demonstrate high toughness and viscoelasticity

(2013) Tao Lin Sun et al.   NATURE MATERIALS

Stretchable, Transparent, Ionic Conductors

(2013) C. Keplinger et al.   SCIENCE

Why are double network hydrogels so tough?

(2010) Jian Ping Gong   Soft Matter

Nanocomposite polymer hydrogels

(2008) Patrick Schexnailder et al.   COLLOID AND POLYMER SCIENCE

Cationic surface functionalization of cellulose nanocrystals

(2008) Merima Hasani et al.   Soft Matter