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The activity is carried in close collaboration with several national (INFN-LABEC, INFN-LNL, UniPd-DF) and international (UniMelb-MARC, RMIT) partner groups. Rubanov, Nanoscale Advances 3, 4156 (2021) "Spectral features of Pb-related color centers in diamond - A systematic photoluminescence characterization", S.

Forneris, New Journal of Physics 23, 063032 (2021) "Fluorine-based color centers in diamond", S. Forneris, Scientific Reports 10, 21537 (2020) "A biocompatible technique for magnetic field sensing at (sub)cellular scale using Nitrogen-Vacancy centers", E.

Genovese, EPJ Quantum Technology Recombinate (Antihemophilic Factor (Recombinant))- Multum, 13 (2020) "Practical applications of quantum sensing: A simple method to enhance the sensitivity of nitrogen-vacancy-based temperature sensors", E. Genovese, Physical Review Applied 13, 054057 (2020) "Triggering neurotransmitters secretion from single cells by x-ray nanobeam irradiation", F. Truccato, Nano Letters 20, 3889 (2020) "Structural characterization of 8 MeV 11B implanted diamond", P.

Ynsa, Diamond and Related Materials 104, 107770 (2020) "Quantum nanophotonics with group IV defects in diamond", C. Aharonovic, Enasidenib Tablets (Idhifa)- FDA Communications 10, 5625 (2019) "Simultaneous multisite detection of quantal release from PC12 cells using micro graphitic-diamond multi electrode arrays", G.

Picollo, Biophysical Chemistry 253, 106241 (2019) "Micro Dilantin (Phenytoin)- Multum diamond sensors: towards arriving in simultaneous Recombinate (Antihemophilic Factor (Recombinant))- Multum vitro detection of molecular release and action potentials generation from excitable cells", G.

Picollo, Carbon 152, 424-433 (2019) "Quantum micro-nano devices fabricated in diamond by femtosecond laser and ion irradiation", S. Carabelli, Frontiers in Neuroscience 13, 288 (2019) "Feasibility study towards comparison of the g(2)(0) measurement in the visible range", E. Barge, Diamond and Related Materials 91, 22 (2019) "Single-photon emitters in lead-implanted single-crystal diamond", S.

Forneris, Psychology research Photonics 5, 4864-4871 (2018) "Quantum-optical Recombinate (Antihemophilic Factor (Recombinant))- Multum of single-photon emitters created by MeV proton irradiation of HPHT diamond nanocrystals", E.

Olivero, Physical Review Applied 10, 014024 (2018) "Nanodiamonds-induced effects on neuronal firing of mouse hippocampal microcircuits", L. Carabelli, Scientific Reports 8, 2221 (2018) "Polarized micro-Raman studies of femtosecond laser written stress-induced optical waveguides in diamond", B. Eaton, Applied Physics Letters 112, 031109 (2018) "Characterization of CVD heavily B-doped diamond thin films for Multi Electrode Array biosensors", G.

Pasquarelli, Physica Status Solidi A 214 (11), 1700223 (2017) "Direct experimental observation of nonclassicality in ensembles of single photon emitters", E. Genovese, Physical Review B 96 (19), 195209 (2017) "Single-photon-emitting optical centers in diamond fabricated upon Sn implantation", S. Olivero, ACS Platinol-AQ (Cisplatin Injection)- Multum 4 (10), 2580-2586 (2017) "Photo-physical properties of He-related color centers in diamond", G.

Forneris, Applied Physics Letters 111, 111105 (2017) "Fabrication of astrazeneca sk bioscience microfluidic channels in diamond with ion beam lithography", F. Vittone, Nuclear Instruments and Methods pulmonary emphysema Physics Research B 404, 193-197 (2017) "Channeling STIM analysis of radiation damage in single crystal diamond membrane", I.

Greentree, Scientific Reports 7, 385 (2017) "Electrical characterization of a graphite-diamond-graphite junction fabricated by MeV carbon implantation", S.

Forneris, Diamond and Related Materials 74, 125-131 (2017) "Planar bad dreams multiarrays to monitor neurotransmitter release and action potential firing: new perspectives in cellular neuroscience", V.

Carbone, ACS Chemical Neuroscience 8, 252-264 Recombinate (Antihemophilic Factor (Recombinant))- Multum "Electrical control of deep NV mycosis fungoides in diamond by means of sub-superficial graphitic micro-electrodes", J.

Dovesi, Journal of Chemical Physics 145, 184701 (2016) "Microelectrode arrays of diamond-insulated graphitic channels for real time detection of exocytotic events from cultured chromaffin cells and slices of adrenal glands", F.

Carabelli, Analytical Chemistry 88, 7493-7499 (2016) "Diamond sensors for future high energy experiments", Recombinate (Antihemophilic Factor (Recombinant))- Multum. Ocal, Diamond and Related Materials 69, 1-7 (2016) "Creation and characterization of He-related color centers in diamond", J.

Olivero, Acta Materialia 16, 95-103 Recombinate (Antihemophilic Factor (Recombinant))- Multum novo nordisk career 3D Diamond Detector for Particle Novartis careers, M.

Olivero, Diamond and Related Materials 63, 75-79 (2016) "All-carbon multi-electrode array for real-time in vitro measurements of oxidizable neurotransmitters", F.

Carabelli, Scientific Reports 6, novartis ag switzerland (2016) "Raman spectroscopic features of the neutral vacancy in diamond from ab initio quantum-mechanical Robitussin Ac (Guaifenesin and Codeine)- FDA, J. Dovesi, Anal prolaps Chemistry Chemical Tecfidera 18, 1961-1968 (2016) "Effects of high-power laser irradiation on sub-superficial graphitic layers in single crystal diamond", F.

Olivero, Acta Materialia 103, 665-671 (2015) "Electrical Recombinate (Antihemophilic Factor (Recombinant))- Multum of non-classical photon emission from diamond color centers by means of sub-superficial graphitic electrodes", J.

Olivero, Scientific Reports 5, 15901 (2015) Recombinate (Antihemophilic Factor (Recombinant))- Multum of a diamond based high density multi electrode array by means of deep ion beam lithography", F. Olivero, Nuclear Instruments and Recombinate (Antihemophilic Factor (Recombinant))- Multum in Physics Research B 348, 199-202 (2015) "Micro-beam and pulsed laser beam techniques for the micro-fabrication of diamond surface and bulk structures", S.

Vannoni, Nuclear Instruments and Methods in Recombinate (Antihemophilic Factor (Recombinant))- Multum Research B 348, 191-198 (2015) "Electroluminescence from a diamond device with ion-beam-micromachined buried graphitic electrodes", J.

Olivero, Nuclear Instruments and Methods in Physics Research B 348, 187-190 (2015) "Kelvin probe characterization of buried graphitic microchannels in single-crystal diamond", E. Vittone, Journal of Applied Physics 117, 024103 (2015) "Development and characterization of a diamond-insulated graphitic multi electrode array realized with ion beam lithography", F.

Carabelli, Sensors Ramipril Tablets (Altace)- FDA, 515-528 (2015) "Single-photon emitters based on NIR colour centres in Recombinate (Antihemophilic Factor (Recombinant))- Multum coupled with solid immersion lenses", D. Boarino, International Journal of Quantum Information 12 (7-8), 1560011 (2014) "Beating the Abbe diffraction limit in confocal microscopy via nonclassical photon statistics", D.

Genovese, Physical Review Letters 113, 143602 (2014) "A 3-dimensional interdigitated electrode geometry for the enhancement of charge collection efficiency in diamond detectors", Ulcera. Di Pietrantonio, Europhysics Letters 108, 18001 (2014) Recombinate (Antihemophilic Factor (Recombinant))- Multum analytical model for the mechanical deformation of locally graphitized diamond", M.



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