about
Volatile fingerprints of cancer specific genetic mutations.Detection of multiple sclerosis from exhaled breath using bilayers of polycyclic aromatic hydrocarbons and single-wall carbon nanotubesDetection of asymptomatic nigrostriatal dopaminergic lesion in rats by exhaled air analysis using carbon nanotube sensorsDetection of Alzheimer's and Parkinson's disease from exhaled breath using nanomaterial-based sensors.Fabrication and characterisation of ligand-functionalised ultrapure monodispersed metal nanoparticle nanoassemblies employing advanced gas deposition technique.Fluctuation-enhanced sensing with organically functionalized gold nanoparticle gas sensors targeting biomedical applications.Assessment of ovarian cancer conditions from exhaled breath.Nanoarray of polycyclic aromatic hydrocarbons and carbon nanotubes for accurate and predictive detection in real-world environmental humidity.Polycyclic Aromatic Hydrocarbon for the Detection of Nonpolar Analytes under Counteracting Humidity ConditionsLigand-capped Ultrapure Metal Nanoparticle Sensors for the Detection of Cutaneous Leishmaniasis Disease in Exhaled BreathPrinting Ultrasensitive Artificially Intelligent Sensors Array with a Single Self-Propelled Droplet Containing NanoparticlesSensor Arrays: Printing Ultrasensitive Artificially Intelligent Sensors Array with a Single Self-Propelled Droplet Containing Nanoparticles (Adv. Funct. Mater. 35/2016)Assessment of Ovarian Cancer Conditions From Exhaled BreathImpact of hemodialysis on exhaled volatile organic compounds in end-stage renal disease: a pilot studyDetection of volatile organic compounds in cattle naturally infected with Mycobacterium bovisDevelopment of an extremely selective e-nose employing a single polycyclic aromatic hydrocarbon-based chemFETCarbon nanotube–TiO2hybrid films for detecting traces of O2Novel hybrid materials for gas sensing applications made of metal-decorated MWCNTs dispersed on nano-particle metal oxidesHighly Selective NO[sub 2] Gas Sensors Made of MWCNTs and WO[sub 3] Hybrid LayersMetal-decorated multi-wall carbon nanotubes for low temperature gas sensingNew TiO2 and Carbon Nanotube Hybrid Microsensors for Detecting Traces of O2 in Beverage Grade CO2Evaporation of WO3on carbon nanotube films: a new hybrid filmOxygen functionalisation of MWNT and their use as gas sensitive thick-film layersWO3 films modified with functionalised multi-wall carbon nanotubes: Morphological, compositional and gas response studiesCarbon nanotubes randomly decorated with gold clusters: from nano2hybrid atomic structures to gas sensing prototypesDrop-coated sensing layers on ultra low power hotplates for an RFID flexible tag microlabFabrication of WO3 nanodot-based microsensors highly sensitive to hydrogenAn electronic nose system based on a micro-machined gas sensor array to assess the freshness of sardinesGas sensing response of NiO nanoparticle films made by reactive gas depositionNovel hexagonal WO3 nanopowder with metal decorated carbon nanotubes as NO2 gas sensorOn the selectivity of nanostructured semiconductor gas sensorsRegression using fuzzy adaptive resonant theory neural networkHighly sensitive and selective WO 3 nanoparticle gas sensor operating in thermally modulated dynamic modeTemperature-modulated gas sensors: selection of modulating frequencies through noise methodsDealing with humidity in the qualitative analysis of CO and NO2 using a WO3 sensor and dynamic signal processingResponse model for thermally modulated tin oxide-based microhotplate gas sensorsQuantitative analysis of NO2 in the presence of CO using a single tungsten oxide semiconductor sensor and dynamic signal processingElectronic Supplementary Information (ESI) available: NIPALS algorithm, the PLS algorithm for one C variable, backpropaWavelet transform and fuzzy ARTMAP-based pattern recognition for fast gas identification using a micro-hotplate gas sensorWavelet transform-based fast feature extraction from temperature modulated semiconductor gas sensorsExhaled breath gas sensing using pristine and functionalized WO3 nanowire sensors enhanced by UV-light irradiation
P50
Q34293462-235B522B-9C52-4D40-80CA-08F3977ED30DQ36015343-E79C4FAA-49C6-45A5-8D23-D122E069ABCDQ36015547-857CA323-4D40-4A98-9E52-BB38BDD5534FQ39535992-4C521D32-EADD-49DD-9956-84EEC15D420CQ47282910-ED47B605-C15B-44DE-8965-6361031204A8Q51173837-94D7271A-3088-492D-8693-3DC29831FCAFQ51701639-DA2E3BA1-7376-44B1-80D8-B21686808E55Q51860325-403F8DD5-FF16-4D1F-8E25-80C5FAA756B2Q58338363-09F793B4-F802-437E-98D8-AD651E79F587Q58591453-15C31D78-FF65-4DAE-A1E5-4D600DF915B1Q59645379-2A47E797-9976-420C-8116-16C230FDF8D4Q59645386-9DCAD915-DA45-441C-8FD9-ED30A01337EEQ59645392-F8F026D0-9212-414D-AF6D-8EE50C407A1EQ59645425-D40EABCB-5E83-4642-B776-D2A4C470C693Q59645483-3E7C4E4C-B904-43D2-9E0C-6B7E82FC7230Q59645515-48EB74AD-6CC0-42AC-908F-3F706FA200CEQ62080817-22C75E8D-3397-454F-AF81-020F5D363466Q62080831-E1360159-9F91-4CB7-95F6-2135B2349F29Q62080859-400E75C9-2C5A-4234-BD52-92BC40F30522Q62080873-AB6A618C-3B23-4584-9A62-B78EACC1ACDDQ62080883-FFB6B2CD-E430-4866-8D83-E5E67703B8D8Q62080889-A39EC3FD-49ED-45C7-9950-5BBDF1C0EFDCQ62080904-6A107864-2D76-42E5-A874-0D6DA03864E5Q62080926-3098B96B-3DAA-4F42-97A6-70860B3909F6Q62597125-83926741-3178-494F-956F-4D4B7AEA1FFAQ63958589-BF82334C-0F9D-4AE2-BF12-19B19E2E7CBEQ63958590-F1332C53-F88D-4991-B05D-1AD7585AA11FQ63958598-59AE2109-57D0-4E3C-BDD9-1512E823F678Q63958601-82B09784-D36B-469B-9A2D-9C3FFF8F86C7Q63958609-71A9CCCC-3B1A-4F7A-ADDA-B963557D55D0Q63958617-A9B89D48-5E4F-46E8-95AB-742F70EACDCFQ63958627-1DCA5FC8-D5D5-45C1-A472-B143830C48C0Q63958656-1FC1D84D-44C6-4D9E-AC57-9236D7E179DAQ63958660-2F175306-72B8-45ED-8132-BCED60791D5FQ63958661-67D74CBB-D74A-476D-B5CF-04DF4869F4E9Q63958663-91460F0B-C5D8-4210-AB32-F7EDBB9E7575Q63958666-00214140-F5E6-4659-AD73-53C408E54DE5Q63958668-C78C7681-EF19-4FF4-965B-489329F5EECBQ63958669-7F8518AA-F959-471A-B60F-ED4080611C39Q64175488-3623E617-53E6-46D4-80D5-40ABF93CD577
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Radu Ionescu
@ast
Radu Ionescu
@en
Radu Ionescu
@es
Radu Ionescu
@nl
Radu Ionescu
@sl
type
label
Radu Ionescu
@ast
Radu Ionescu
@en
Radu Ionescu
@es
Radu Ionescu
@nl
Radu Ionescu
@sl
prefLabel
Radu Ionescu
@ast
Radu Ionescu
@en
Radu Ionescu
@es
Radu Ionescu
@nl
Radu Ionescu
@sl
P108
P1053
A-5158-2013
P106
P108
P1153
7005357999
P21
P31
P3829
P496
0000-0001-6211-0035
P569
2000-01-01T00:00:00Z