about
Enhanced single-photon emission in the near infrared from a diamond color centerCoherent Population Trapping of Single Spins in Diamond under Optical ExcitationRefractive index variation in a free-standing diamond thin film induced by irradiation with fully transmitted high-energy protons.Progress in silicon-based quantum computing.Single nitrogen vacancy centers in chemical vapor deposited diamond nanocrystals.Coherent population trapping in diamond N-V centers at zero magnetic field.Filling schemes at submicron scale: development of submicron sized plasmonic colour filters.Hermetic diamond capsules for biomedical implants enabled by gold active braze alloys.Diamond encapsulated photovoltaics for transdermal power delivery.Micro-concave waveguide antenna for high photon extraction from nitrogen vacancy centers in nanodiamondThe influence of sterilization on nitrogen-included ultrananocrystalline diamond for biomedical applications.Nanomechanical Sensing Using Spins in Diamond.Direct fabrication of 3D graphene on nanoporous anodic alumina by plasma-enhanced chemical vapor deposition.Scalable Fabrication of Integrated Nanophotonic Circuits on Arrays of Thin Single Crystal Diamond Membrane Windows.Thin Nanoporous Metal-Insulator-Metal Membranes.Ultrananocrystalline diamond-CMOS device integration route for high acuity retinal prostheses.Spin-orbit interaction in a two-dimensional hole gas at the surface of hydrogenated diamond.Nanocarbon-Coated Porous Anodic Alumina for Bionic Devices.Minimally invasive endovascular stent-electrode array for high-fidelity, chronic recordings of cortical neural activity.Direct measurement and modelling of internal strains in ion-implanted diamond.Diamond waveguides fabricated by reactive ion etching.Molecular detection by liquid gated Hall effect measurements of graphene.A comparative study of carbonate determination in human teeth using Raman spectroscopy.Single-photon emitting diode in silicon carbide.A graphene field-effect transistor as a molecule-specific probe of DNA nucleobases.Quantum measurement and orientation tracking of fluorescent nanodiamonds inside living cells.Near-surface spectrally stable nitrogen vacancy centres engineered in single crystal diamond.Optimizing growth and post treatment of diamond for high capacitance neural interfaces.On-chip manipulation of single photons from a diamond defect.Electronic properties and metrology applications of the diamond NV- center under pressure.Raman spectroscopy of diamond and doped diamond.Development of a Magnetic Attachment Method for Bionic Eye Applications.An all-diamond, hermetic electrical feedthrough array for a retinal prosthesis.Development of a templated approach to fabricate diamond patterns on various substrates.Diamond photonicsIon-beam modification of fullereneRaman spectroscopic study of noncarious cervical lesionsBrazing techniques for the fabrication of biocompatible carbon-based electronic devicesFormation of carbon nanoclusters by implantation of keV carbon ions in fused silica followed by thermal annealingDiamond in Tellurite Glass: a New Medium for Quantum Information
P50
Q27346903-947B89B7-9E2C-460B-886A-6AAE0B5AB372Q27349455-BA2CD434-A69C-4767-B82E-A5E77D8B2979Q30356464-6C2BAB23-D5A6-429D-8090-454F6EF6946FQ30965527-8A315051-816A-4027-A146-E87CF8F83162Q33300726-10A540A5-45C3-45E8-8109-91A1BE4DDED2Q33467916-45AB7C8A-4ADA-45C2-A568-48F5C22A8BB2Q34219824-155E1103-6C4A-434B-961B-BE553D1B929FQ35609273-A7CE93FE-3480-452C-8B3D-D7E83CB97E34Q35811503-ACF1BE5C-F75E-4609-BD98-BE5C9823FF17Q35847780-410F0F1C-9DF7-47C1-9B25-5DF07AA287EEQ35912693-E1F2FFFC-30FA-46C1-97DE-090AF370A161Q36266210-421FF332-D4F2-46A8-B9A2-BE39FA9E8BB5Q36500854-9F391EC4-E9B9-4DC7-A8CF-E638EF5AD4EBQ38876417-A81AF20F-71DC-4DF0-B479-BF2C05D1C534Q38912018-A8478ED7-5C2B-40FA-AEEA-3F5096BCF587Q39017794-D38C36C9-D04F-4BD5-8BCF-3681D4092A30Q39079868-3E749AE1-7364-4079-B7DE-7B025684FE6DQ41967355-9A285503-5CC3-415B-8853-5B2D121AA3E0Q44065791-E750A582-60B1-49C2-801D-D9CDE455A9BEQ44272272-64F25D96-1F13-41F2-9AD2-E8AA62BF4245Q45291671-74F06FDE-EF28-43EB-9146-AA8C18028ADEQ47229670-C06DFE3E-DA31-4A88-9520-F3D52085D21EQ47733170-4453AC7B-D40F-44C2-B6FE-237E26491A7DQ48154962-7E032692-D1F6-4E62-8260-4CC67F9E0E1AQ48213512-634E13D4-2F95-45C2-AD4C-30BF740F41F0Q50681951-EA926288-9004-48BB-B57B-D2AE0992506CQ50953348-D539D920-BA96-4CC0-B2F9-8D3D594935D9Q51246045-DC0FD2AF-0A76-4DE6-8D1B-07AEC91198ECQ51525685-BF25EE09-C270-4C83-8B00-5505CC0E5983Q51591520-244929C3-FC07-4D87-A883-31A918A9F5BBQ51599373-999AC03D-BA97-47D7-86E4-61911A232522Q51703638-1E579025-E4D3-45F0-B081-C9680DD88F29Q51761972-F7B8DD34-3145-4CC4-9035-35320FFC01C7Q53064360-F99282E1-57D8-4DA9-988C-91DFB41F5AD3Q56003024-D00A6594-F359-4F3E-AD50-6F80B64E9D98Q56834738-06E54AE5-97DA-4CE8-8DD2-688D9595FFC7Q57347951-38E414BC-91FE-450E-8411-B8A3DD8BDFC0Q57536015-5B69B5F1-1ACA-496C-8A67-E425EA93F280Q57827444-B473BAD8-023A-4E74-9010-8ED0BEF9E46AQ57828816-4EFB6F6A-04D0-455C-A6ED-C735211D105D
P50
description
investigador
@es
researcher
@en
wetenschapper
@nl
name
Steven Prawer
@ast
Steven Prawer
@en
Steven Prawer
@es
Steven Prawer
@nl
type
label
Steven Prawer
@ast
Steven Prawer
@en
Steven Prawer
@es
Steven Prawer
@nl
prefLabel
Steven Prawer
@ast
Steven Prawer
@en
Steven Prawer
@es
Steven Prawer
@nl
P214
P244
P106
P1153
7006110206
P21
P214
P244
nb2014012786
P31
P496
0000-0002-4959-0828
P7859
lccn-nb2014012786