Quantum micro–nano devices fabricated in diamond by femtosecond laser and ion irradiation
Diamond has attracted great interest as a quantum technology platform thanks to its optically
active nitrogen vacancy (NV) center. The NV's ground state spin can be read out optically …
active nitrogen vacancy (NV) center. The NV's ground state spin can be read out optically …
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 …
High conductivity micro-wires in diamond following arbitrary paths
High quality graphitic wires embedded beneath the surface of single crystal diamond are
fabricated using a combination of adaptive ultrashort pulsed laser fabrication, high …
fabricated using a combination of adaptive ultrashort pulsed laser fabrication, high …
[HTML][HTML] Effect of crystallographic orientation on the potential barrier and conductivity of Bessel written graphitic electrodes in diamond
Ultrafast laser micromachining can be used to promote diamond graphitization, enabling the
creation of electrically conductive wires embedded in the diamond matrix. In this context, the …
creation of electrically conductive wires embedded in the diamond matrix. In this context, the …
Quantal release of dopamine and action potential firing detected in midbrain neurons by multifunctional diamond-based microarrays
Micro-Graphitic Single Crystal Diamond Multi Electrode Arrays (μG-SCD-MEAs) have so far
been used as amperometric sensors to detect catecholamines from chromaffin cells and …
been used as amperometric sensors to detect catecholamines from chromaffin cells and …
Electrical control of deep NV centers in diamond by means of sub-superficial graphitic micro-electrodes
The control of the charge state of nitrogen-vacancy (NV) centers in diamond is of primary
importance for the stabilization of their quantum-optical properties, in applications ranging …
importance for the stabilization of their quantum-optical properties, in applications ranging …
A new diamond biosensor with integrated graphitic microchannels for detecting quantal exocytic events from chromaffin cells
The quantal release of catecholamines from neuroendocrine cells is a key mechanism
which has been investigated with a broad range of materials and devices, among which …
which has been investigated with a broad range of materials and devices, among which …
Process design for the manufacturing of soft X-ray gratings in single-crystal diamond by high-energy heavy-ion irradiation
G García, M Martin, MD Ynsa… - … Physical Journal Plus, 2022 - epjplus.epj.org
This paper describes in detail a novel manufacturing process for optical gratings suitable for
use in the UV and soft X-ray regimes in a single-crystal diamond substrate based on highly …
use in the UV and soft X-ray regimes in a single-crystal diamond substrate based on highly …
Direct observation of graphenic nanostructures inside femtosecond-laser modified diamond
KK Ashikkalieva, TV Kononenko, EA Obraztsova… - Carbon, 2016 - Elsevier
In this paper we report on the study of the buried laser-modified region produced inside
single crystal diamond by femtosecond laser irradiation. The cross-section of the modified …
single crystal diamond by femtosecond laser irradiation. The cross-section of the modified …
[HTML][HTML] Phonon-drag in a graphite channel buried in diamond
While the phonon-drag effect can induce large Seebeck coefficients, it is associated with
large mean free path phonons present in the vicinity of the maximum in temperature of the …
large mean free path phonons present in the vicinity of the maximum in temperature of the …