Toward nanobioelectronic medicine: Unlocking new applications using nanotechnology
Bioelectronic medicine aims to interface electronic technology with biological components
and design more effective therapeutic and diagnostic tools. Advances in nanotechnology …
and design more effective therapeutic and diagnostic tools. Advances in nanotechnology …
Wirefree electroceuticals: 3D electrical and electrochemical stimulation of biological systems
RJ Forster - Current Opinion in Electrochemistry, 2023 - Elsevier
There is an increasing recognition that biological systems can be influenced in many ways
by electron and ion transfer reactions, potentials and electric fields that can be generated in …
by electron and ion transfer reactions, potentials and electric fields that can be generated in …
Impedimetric characterization of bipolar nanoelectrodes with cancer cells
Merging of electronics with biology, defined as bioelectronics, at the nanoscale holds
considerable promise for sensing and modulating cellular behavior. Advancing our …
considerable promise for sensing and modulating cellular behavior. Advancing our …
Remote‐Controllable Lateral Electropolymerization of Conducting Polymers via Dual‐Electrode ADC‐Bipolar Electrochemistry
The electrolysis of aromatic molecules is a useful method for the synthesis and deposition of
conducting polymers. However, this method cannot be applied to diverse large‐area …
conducting polymers. However, this method cannot be applied to diverse large‐area …
Wireless nanobioelectronics for electrical intracellular sensing
P Sanjuan-Alberte, A Jain, AJ Shaw… - ACS Applied Nano …, 2019 - ACS Publications
For the field of bioelectronics to make an impact on healthcare, there is an urgent
requirement for the development of “wireless” electronic systems to enable modulation of …
requirement for the development of “wireless” electronic systems to enable modulation of …
Bipolar electrochemical growth of conductive microwires for cancer spheroid integration: a step forward in conductive biological circuitry
The field of bioelectronics is developing exponentially. There is now a drive to interface
electronics with biology for the development of new technologies to improve our …
electronics with biology for the development of new technologies to improve our …
Bipolar electrochemistry regulation for dynamic meniscus confined electrodeposition of copper micro-structures by a double-anode system
X Zhang, Y Zhang, Y Li, Y Lei, Z Li, A Sun… - Journal of The …, 2019 - iopscience.iop.org
Meniscus-confined electrodeposition (MCED) has emerged as a versatile additive
micromanufacturing method for complex metal microstructures and flexible electrical …
micromanufacturing method for complex metal microstructures and flexible electrical …
Engineering the spark into bioelectronic medicine
P Sanjuan-Alberte, FJ Rawson - Therapeutic Delivery, 2019 - Taylor & Francis
Conclusion Continuous development of manufacturing techniques and technological
advancements are driving a rapid evolution in the bioelectronic medicine field. While …
advancements are driving a rapid evolution in the bioelectronic medicine field. While …
Ag metal interconnect wires formed by pseudoplastic nanoparticles fluid imprinting lithography with microwave assistant sintering
Nanoimprint technology has the advantages of low cost, high precision, high fidelity and
high yield. The metal nanoparticle fluid is non-Newtonian fluid, which is used as the imprint …
high yield. The metal nanoparticle fluid is non-Newtonian fluid, which is used as the imprint …
Bipolar electrochemistry
Bipolar electrochemistry is a technique that involves two opposite chemical processes,
namely an oxidation and a reduction, occurring simultaneously on the surface of a …
namely an oxidation and a reduction, occurring simultaneously on the surface of a …