TAG ARCHIVE

POSTS TAGGED AS bioelectronics

Electrochemical Control of Protein Binding and Release

August 16, 2022 | | Posted in Newsletter

Polymer brushes for protein capture and release proteins on demand
“Here we [chemists at Sweden’s Chalmers University of Technology] present the [MORE]

New Class of Bioelectronics

December 7, 2021 | | Posted in Newsletter

Bioengineers develop new class of human-powered bioelectronics
“The researchers [at UCLA] discovered that the magnetoelastic effect, which is the change of [MORE]

New Material for Soft Bioelectronics

May 18, 2021 | | Posted in Newsletter

Ag-hydrogel composite for soft bioelectronics
“Researchers in Carnegie Mellon University’s Soft Machines Lab have developed a unique silver-hydrogel composite that has [MORE]

Magnetically Powered Bioelectronic Implants

August 25, 2020 | | Posted in Newsletter

Magnetoelectric film on top of rice
From Rice University neuroengineers: “The neural stimulator draws its power from magnetic energy and is [MORE]

Improving Bioelectronics for Biomarker Sensitivity

January 9, 2018 | | Posted in Newsletter

Erin Ratcliff and Zachary Kushian Achieve Selectivity of Biomarkers
Figuring out how to more effectively control the electron transfer rate between [MORE]

Single Cell Electroporation

May 9, 2017 | | Posted in Newsletter

A lab team at Rutgers has combined a microfluidics device with electroporation apparatus to open cells as they flow through [MORE]

Body Temperature Pill

May 2, 2017 | | Posted in Newsletter

BodyCap e-Celsius-e-Pill
It’s a little hard to imagine why tracking a patient’s GI tract temperature every 30 seconds would be clinically [MORE]

Developing “Bioelectronics Medicines”

October 4, 2016 | | Posted in Newsletter

Glaxo Smith Klein’s R&D center at Stevenage, UK and Verify Life Science’s innovation group in South San Francisco have announced [MORE]

Artificial Neuron from Organic Bioelectronics

October 6, 2015 | | Posted in Newsletter

Cerebellar Neurons
“Scientists [at Karolinska Institute, Stockholm] have managed to build a fully functional neuron by using organic bioelectronics. This artificial [MORE]

Nanoelectronic Scaffold for Tissue Culture

November 27, 2012 | | Posted in Newsletter

Cyborg Tissue
The concept of meshing human and nonhuman tissue into “cybernetic organisms” originated with the US space program and [MORE]

Graphene Bionics

June 12, 2012 | | Posted in Newsletter

Cortical Neurons Grown on Graphene
Biomaterials researchers are constantly looking for substances that can interface with human tissue, such as [MORE]

Implantable Brain Prosthetic

March 15, 2011 | | Posted in Newsletter

eberhard Fetz, PhD
Stroke victims who lose their speech ability, but eventually regain it, illustrate the brain’s plasticity in recovering [MORE]

First Artificial Nerve Cell

August 11, 2009 | | Posted in Newsletter

Swedish researchers at a government-financed “Center of Excellence in Organic Bioelectronics” have developed an artificial nerve cell that, instead of [MORE]