Add to ORKGAdditive manufacturing of composites offers a potential for a new level of control over a material’s structure at the microscale. The focus of this work is a 2-hydroxyethyl methacrylate (HEMA)–based gelation system with orderly distributed carbon nanotubes (CNTs). CNTs undergo shear-induced alignment during printing process, and retain their orientation after the polymerisation of HEMA monomers, thereby, forming a nanocomposite with anisotropic mechanical and electrical properties. It is characterised with an intensive programme of mechanical tests including quasistatic uniaxial stretching, and dynamic cyclic loadings, as well as its four-terminal sensing of conductive characteristics. A coupling effect of mechanical and electrical properti...
We demonstrate the fabrication and integration of active microstructures based on composites of 3D c...
The fabrication of hydrogel electrode materials via inkjet/extrusion printing, wet-spinning and phys...
Machine technology frequently puts magnetic or electrostatic repulsive forces to practical use, as i...
The utilisation of additive manufacturing technique for producing soft hydrogel nanocomposites could...
Compositional and structural patterns play a crucial role in the function of many biological tissues...
Deformation-driven alignment of macromolecules or nanofibers leading to anisotropy is a challenge in...
Recently, the 3D printing of conductive hydrogels has undergone remarkable advances in the fabricati...
Part 1: Aerogel is an open-celled, microporous, solid foam composed of a network of interconnected ...
In recent years, 4D printing which the printed materials can transform their shape over time had bee...
This work provides a comprehensive investigation of the anisotropic mechanical and electrical proper...
The present work describes the synthesis, structural and mechanical characterisation of soft polymer...
In the recent years, composites have been widely studied thanks to their interesting properties and ...
In this paper, we present the biomanufacturing of patterned electrically conductive and cell- embedd...
In quest for new functional materials, cellulose nanocrystals (CNCs) have attracted great interest d...
Hydrogels sensitive to electric current are usually made of polyelectrolytes and undergo erosion, sw...
We demonstrate the fabrication and integration of active microstructures based on composites of 3D c...
The fabrication of hydrogel electrode materials via inkjet/extrusion printing, wet-spinning and phys...
Machine technology frequently puts magnetic or electrostatic repulsive forces to practical use, as i...
The utilisation of additive manufacturing technique for producing soft hydrogel nanocomposites could...
Compositional and structural patterns play a crucial role in the function of many biological tissues...
Deformation-driven alignment of macromolecules or nanofibers leading to anisotropy is a challenge in...
Recently, the 3D printing of conductive hydrogels has undergone remarkable advances in the fabricati...
Part 1: Aerogel is an open-celled, microporous, solid foam composed of a network of interconnected ...
In recent years, 4D printing which the printed materials can transform their shape over time had bee...
This work provides a comprehensive investigation of the anisotropic mechanical and electrical proper...
The present work describes the synthesis, structural and mechanical characterisation of soft polymer...
In the recent years, composites have been widely studied thanks to their interesting properties and ...
In this paper, we present the biomanufacturing of patterned electrically conductive and cell- embedd...
In quest for new functional materials, cellulose nanocrystals (CNCs) have attracted great interest d...
Hydrogels sensitive to electric current are usually made of polyelectrolytes and undergo erosion, sw...
We demonstrate the fabrication and integration of active microstructures based on composites of 3D c...
The fabrication of hydrogel electrode materials via inkjet/extrusion printing, wet-spinning and phys...
Machine technology frequently puts magnetic or electrostatic repulsive forces to practical use, as i...