Printed microelectrode arrays on soft materials: from PDMS to hydrogels
4.9 (546) · $ 22.50 · In stock
Development of conductive hydrogels: from design mechanisms to
Wolfrum Lab
Tissue-like skin-device interface for wearable bioelectronics by
Design and engineering of organ-on-a-chip
Electrohydrodynamic (EHD) printing of nanomaterial composite inks
Chemical Approaches to Emerging Advancements in Deformable
All Biodisintegratable Hydrogel Biohybrid Neural Interfaces with
Microelectrode array design (a) global MEA layout for 49 × 49 mm
Bio-MEMS - Wikipedia
Highly Flexible Single-Unit Resolution All Printed Neural Interface on a Bioresorbable Backbone
Optimization of makerspace microfabrication techniques and materials for the realization of planar, 3D printed microelectrode arrays in under four day - RSC Advances (RSC Publishing) DOI:10.1039/C8RA09116A
Frontiers Integration of hydrogels in microfabrication processes
Fabrication of the PDMS microchannel with protrusions
Recent developments and future perspectives on neuroelectronic devices