Simon E. Moulton

TL;DR: Alginate (Alg) was selected as the major component of the 'bio-ink' formulations for extrusion printing of cells and the viability of primary myoblasts delivered as a myoblast/Alg-Gel bio-ink was not affected by the printing process, indicating that the Alg-gel matrix provides a potential means to print 3D constructs that may find application in myoregenerative applications.

TL;DR: A large-scale flexible fabrication of highly porous high-performance multifunctional graphene oxide (GO) and rGO fibers and yarns by taking advantage of the intrinsic soft self-assembly behavior of ultralarge graphene oxide liquid crystalline dispersions is demonstrated.

TL;DR: If applied to the cochlear implant, Ppy/pTS/NT3 will provide a biocompatible, low-impedance substrate for storage and release of NT3 to help protect auditory neurons from degradation after sensorineural hearing loss and encourage neurite outgrowth towards the electrodes.

TL;DR: Soft self-assembly of ultralarge liquid crystalline (LC) graphene oxide (GO) sheets in a wide range of organic solvents overcoming the practical limitations imposed on LC GO processing in water is introduced.

TL;DR: The goal of this study was to optimise and characterise a range of polypyrrole materials to act as substrates for electrical stimulation of differentiating skeletal myoblasts, resulting in a comprehensive study of how synthesis conditions affect the final outcome in terms of cell response.