General functionalization route for cell adhesion on non-wetting surfaces
We present a versatile route for promoting cell adhesion and viability on various non-wetting
surfaces, inspired by mussel adhesion mechanism. The oxidative polymerization of …
surfaces, inspired by mussel adhesion mechanism. The oxidative polymerization of …
Whole-cell biochips for bio-sensing: integration of live cells and inanimate surfaces
Recent advances in the convergence of the biological, chemical, physical, and engineering
sciences have opened new avenues of research into the interfacing of diverse biological …
sciences have opened new avenues of research into the interfacing of diverse biological …
Planar diamond-based multiarrays to monitor neurotransmitter release and action potential firing: new perspectives in cellular neuroscience
High biocompatibility, outstanding electrochemical responsiveness, inertness, and
transparency make diamond-based multiarrays (DBMs) first-rate biosensors for in vitro …
transparency make diamond-based multiarrays (DBMs) first-rate biosensors for in vitro …
Quantifying neurotransmitter secretion at single-vesicle resolution using high-density complementary metal–oxide–semiconductor electrode array
KA White, BN Kim - Nature Communications, 2021 - nature.com
Neuronal exocytosis facilitates the propagation of information through the nervous system
pertaining to bodily function, memory, and emotions. Using amperometry, the sub …
pertaining to bodily function, memory, and emotions. Using amperometry, the sub …
Surface properties and biological behaviour of Si-DLC coatings fabricated by a multi-target DC–RF magnetron sputtering method for medical applications
The Si-incorporated diamond-like carbon (DLC) coatings deposited on AISI 316 LVM
medical steel using magnetron sputtering method are currently not widely described in the …
medical steel using magnetron sputtering method are currently not widely described in the …
Microwell device for targeting single cells to electrochemical microelectrodes for high-throughput amperometric detection of quantal exocytosis
Electrochemical microelectrodes are commonly used to detect spikes of amperometric
current that correspond to exocytosis of oxidizable transmitter from individual vesicles, ie …
current that correspond to exocytosis of oxidizable transmitter from individual vesicles, ie …
Ab initio insights into the interaction mechanisms between boron, nitrogen and oxygen doped diamond surfaces and water molecules
Diamond and diamond-like carbon coatings are used in many applications ranging from
biomedicine to tribology. A wide range of dopants have been tested to modify the …
biomedicine to tribology. A wide range of dopants have been tested to modify the …
Nanocrystalline diamond microelectrode arrays fabricated on sapphire technology for high-time resolution of quantal catecholamine secretion from chromaffin cells
The quantal release of oxidizable molecules can be successfully monitored by means of
polarized carbon fiber microelectrodes (CFEs) positioned in close proximity to the cell …
polarized carbon fiber microelectrodes (CFEs) positioned in close proximity to the cell …
Spatially controlling neuronal adhesion on CVD diamond
The mechanical and chemical properties of CVD diamond films make them very suitable
materials for improving the long-term performance of invasive electrode systems used in …
materials for improving the long-term performance of invasive electrode systems used in …
Concurrent improvement in biocompatibility and bioinertness of diamond‐like carbon films with nitrogen do**
WH Liao, CR Lin, DH Wei, YR Shen… - … Research Part A, 2012 - Wiley Online Library
The surfaces of implantable biomaterials improving biocompatibility and bioinertness are
critical for new application of bioimplantable devices. Diamond‐like carbon (DLC) film is a …
critical for new application of bioimplantable devices. Diamond‐like carbon (DLC) film is a …