Rational design of silicon structures for optically controlled multiscale biointerfaces
Silicon-based materials have been widely used in biological applications. However,
remotely controlled and interconnect-free silicon configurations have been rarely explored …
remotely controlled and interconnect-free silicon configurations have been rarely explored …
From design to clinic: engineered nanobiomaterials for immune normalization therapy of cancer
The tumor immune microenvironment (TIME) is comprised of a complex milieu that
contributes to stunting antitumor immune responses by restricting T cells to accumulate in …
contributes to stunting antitumor immune responses by restricting T cells to accumulate in …
Biointegrated and wirelessly powered implantable brain devices: A review
Implantable neural interfacing devices have added significantly to neural engineering by
introducing the low-frequency oscillations of small populations of neurons known as local …
introducing the low-frequency oscillations of small populations of neurons known as local …
Flexible electrodes for in vivo and in vitro electrophysiological signal recording
A variety of electrophysiological signals (electrocardiography, electromyography,
electroencephalography, etc.) are generated during the physiological activities of human …
electroencephalography, etc.) are generated during the physiological activities of human …
Electron conductive and transparent hydrogels for recording brain neural signals and neuromodulation
Recording brain neural signals and optogenetic neuromodulations open frontiers in
decoding brain neural information and neurodegenerative disease therapeutics …
decoding brain neural information and neurodegenerative disease therapeutics …
Scalable ultrasmall three-dimensional nanowire transistor probes for intracellular recording
New tools for intracellular electrophysiology that push the limits of spatiotemporal resolution
while reducing invasiveness could provide a deeper understanding of electrogenic cells and …
while reducing invasiveness could provide a deeper understanding of electrogenic cells and …
A review of bioresorbable implantable medical devices: Materials, fabrication, and implementation
R Singh, MJ Bathaei, E Istif… - Advanced Healthcare …, 2020 - Wiley Online Library
Implantable medical devices (IMDs) are designed to sense specific parameters or stimulate
organs and have been actively used for treatment and diagnosis of various diseases. IMDs …
organs and have been actively used for treatment and diagnosis of various diseases. IMDs …
Emerging materials and technologies with applications in flexible neural implants: a comprehensive review of current issues with neural devices
Neuroscience is an essential field of investigation that reveals the identity of human beings,
with a comprehensive understanding of advanced mental activities, through the study of …
with a comprehensive understanding of advanced mental activities, through the study of …
Palette of rechargeable mechanoluminescent fluids produced by a biomineral-inspired suppressed dissolution approach
Mechanoluminescent materials, which emit light in response to mechanical stimuli, have
recently been explored as promising candidates for photonic skins, remote optogenetics …
recently been explored as promising candidates for photonic skins, remote optogenetics …
[HTML][HTML] Towards brain-tissue-like biomaterials
Many biomaterials have been developed which aim to match the elastic modulus of the
brain for improved interfacing. However, other properties such as ultimate toughness, tensile …
brain for improved interfacing. However, other properties such as ultimate toughness, tensile …