Search
Leader | 00000nz a2200037n 45 0 | ||
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001 | WKP|Q51311950 (VIAF cluster) (Authority/Source Record) | ||
003 | WKP | ||
005 | 20241120235759.0 | ||
008 | 241120nneanz||abbn n and d | ||
035 | ‡a (WKP)Q51311950 | ||
024 | ‡a 0000-0002-3075-3623 ‡2 orcid | ||
035 | ‡a (OCoLC)Q51311950 | ||
043 | ‡c KR | ||
046 | ‡f 19650000 ‡g 20220000 | ||
100 | 0 | ‡a 이종흔 ‡c 연구원 ‡9 ko | |
375 | ‡a 1 ‡2 iso5218 | ||
400 | 0 | ‡a Jong-Heun Lee ‡c researcher ‡9 en | |
400 | 0 | ‡a Jong-Heun Lee ‡c wetenschapper ‡9 nl | |
670 | ‡a Author's A new concept for obtaining SnO2 fiber-in-tube nanostructures with superior electrochemical properties. | ||
670 | ‡a Author's A New Strategy for Detecting Plant Hormone Ethylene Using Oxide Semiconductor Chemiresistors: Exceptional Gas Selectivity and Response Tailored by Nanoscale Cr2O3 Catalytic Overlayer | ||
670 | ‡a Author's A New Strategy for Humidity Independent Oxide Chemiresistors: Dynamic Self-Refreshing of In2 O3 Sensing Surface Assisted by Layer-by-Layer Coated CeO2 Nanoclusters. | ||
670 | ‡a Author's Co3O4-SnO2 Hollow Heteronanostructures: Facile Control of Gas Selectivity by Compositional Tuning of Sensing Materials via Galvanic Replacement | ||
670 | ‡a Author's Design and synthesis of micron-sized spherical aggregates composed of hollow Fe2O3 nanospheres for use in lithium-ion batteries. | ||
670 | ‡a Author's Design of Highly Selective Gas Sensors via Physicochemical Modification of Oxide Nanowires: Overview | ||
670 | ‡a Author's Design of highly sensitive and selective Au@NiO yolk-shell nanoreactors for gas sensor applications. | ||
670 | ‡a Author's Design of highly sensitive C2H5OH sensors using self-assembled ZnO nanostructures | ||
670 | ‡a Author's Dual Role of Multiroom-Structured Sn-Doped NiO Microspheres for Ultrasensitive and Highly Selective Detection of Xylene | ||
670 | ‡a Author's Electrochemical properties of tungsten sulfide-carbon composite microspheres prepared by spray pyrolysis | ||
670 | ‡a Author's Electrochemical properties of yolk-shell-structured Zn-Fe-S multicomponent sulfide materials with a 1:2 Zn/Fe molar ratio. | ||
670 | ‡a Author's Electronic sensitization of the response to C2H5OH of p-type NiO nanofibers by Fe doping | ||
670 | ‡a Author's Enhanced ethanol sensing characteristics of In2O3-decorated NiO hollow nanostructures via modulation of hole accumulation layers | ||
670 | ‡a Author's Extremely sensitive and selective NO probe based on villi-like WO3 nanostructures for application to exhaled breath analyzers | ||
670 | ‡a Author's Facile control of C₂H₅OH sensing characteristics by decorating discrete Ag nanoclusters on SnO₂ nanowire networks | ||
670 | ‡a Author's Flame spray pyrolysis for finding multicomponent nanomaterials with superior electrochemical properties in the CoO(x)-FeO(x) system for use in lithium-ion batteries | ||
670 | ‡a Author's Flexible Room-Temperature NH3 Sensor for Ultrasensitive, Selective, and Humidity-Independent Gas Detection | ||
670 | ‡a Author's Gas Selectivity Control in Co3O4 Sensor via Concurrent Tuning of Gas Reforming and Gas Filtering using Nanoscale Hetero-Overlayer of Catalytic Oxides | ||
670 | ‡a Author's General Strategy for Designing Highly Selective Gas-Sensing Nanoreactors: Morphological Control of SnO2 Hollow Spheres and Configurational Tuning of Au Catalysts | ||
670 | ‡a Author's Highly Selective and Sensitive Detection of Breath Isoprene by Tailored Gas Reforming: A Synergistic Combination of Macroporous WO<sub>3</sub> Spheres and Au Catalysts | ||
670 | ‡a Author's Highly Selective Xylene Sensor Based on NiO/NiMoO4 Nanocomposite Hierarchical Spheres for Indoor Air Monitoring | ||
670 | ‡a Author's Highly Sensitive and Selective PbTiO3 Gas Sensors with Negligible Humidity Interference in Ambient Atmosphere | ||
670 | ‡a Author's Highly sensitive and selective trimethylamine sensor using one-dimensional ZnO-Cr2O3 hetero-nanostructures | ||
670 | ‡a Author's Humidity-Independent Gas Sensors Using Pr-Doped In2O3 Macroporous Spheres: Role of Cyclic Pr3+/Pr4+ Redox Reactions in Suppression of Water-Poisoning Effect | ||
670 | ‡a Author's Humidity-independent Oxide Semiconductor Chemiresistors Using Terbium-doped SnO2 Yolk-Shell Spheres for Real-time Breath Analysis. | ||
670 | ‡a Author's Impedance spectroscopic analysis on effects of partial oxidation of TiN bottom electrode and microstructure of amorphous and crystalline HfO2 thin films on their bipolar resistive switching | ||
670 | ‡a Author's Kilogram-scale synthesis of Pd-loaded quintuple-shelled Co3O4 microreactors and their application to ultrasensitive and ultraselective detection of methylbenzenes. | ||
670 | ‡a Author's Large scale production of yolk-shell β-tricalcium phosphate powders, and their bioactivities as novel bone substitutes. | ||
670 | ‡a Author's Metal-Organic Framework-Derived Hollow Hierarchical Co3O4 Nanocages with Tunable Size and Morphology: Ultrasensitive and Highly Selective Detection of Methylbenzenes. | ||
670 | ‡a Author's Metal Oxide Gas Sensors with Au Nanocluster Catalytic Overlayer: Toward Tuning Gas Selectivity and Response Using a Novel Bilayer Sensor Design | ||
670 | ‡a Author's Microstructural control and selective C2H5OH sensing properties of Zn2SnO4 nanofibers prepared by electrospinning | ||
670 | ‡a Author's NiO/NiWO4 Composite Yolk-Shell Spheres with Nanoscale NiO Outer Layer for Ultrasensitive and Selective Detection of Subppm-level p-Xylene | ||
670 | ‡a Author's Novel fabrication of an SnO | ||
670 | ‡a Author's Novel fabrication of an SnO(2) nanowire gas sensor with high sensitivity. | ||
670 | ‡a Author's One-pot rapid synthesis of core-shell structured NiO@TiO2 nanopowders and their excellent electrochemical properties as anode materials for lithium ion batteries. | ||
670 | ‡a Author's One-pot synthesis of Pd-loaded SnO | ||
670 | ‡a Author's One-pot synthesis of Pd-loaded SnO(2) yolk-shell nanostructures for ultraselective methyl benzene sensors. | ||
670 | ‡a Author's Perforated Metal Oxide-Carbon Nanotube Composite Microspheres with Enhanced Lithium-Ion Storage Properties | ||
670 | ‡a Author's Pure and palladium-loaded Co3O4 hollow hierarchical nanostructures with giant and ultraselective chemiresistivity to xylene and toluene. | ||
670 | ‡a Author's Rational Design of Semiconductor-Based Chemiresistors and their Libraries for Next-Generation Artificial Olfaction | ||
670 | ‡a Author's Selective detection of NO2 and C2H5OH using a Co3O4-decorated ZnO nanowire network sensor | ||
670 | ‡a Author's Selective detection of NO2 using Cr-doped CuO nanorods. | ||
670 | ‡a Author's Study of alinite cement hydration by impedance spectroscopy | ||
670 | ‡a Author's Superionic Halogen-Rich Li-Argyrodites Using In Situ Nanocrystal Nucleation and Rapid Crystal Growth | ||
670 | ‡a Author's Superior Na-ion storage properties of high aspect ratio SnSe nanoplates prepared by a spray pyrolysis process | ||
670 | ‡a Author's Synthesis and electrochemical properties of spherical and hollow-structured NiO aggregates created by combining the Kirkendall effect and Ostwald ripening. | ||
670 | ‡a Author's Thermally assisted nanotransfer printing with sub-20-nm resolution and 8-inch wafer scalability | ||
670 | ‡a Author's Thin-walled NiO tubes functionalized with catalytic Pt for highly selective C2H5OH sensors using electrospun fibers as a sacrificial template | ||
670 | ‡a Author's Toward breath analysis on a chip for disease diagnosis using semiconductor-based chemiresistors: recent progress and future perspectives. | ||
670 | ‡a Author's Transformation of ZnO nanobelts into single-crystalline Mn3O4 nanowires. | ||
670 | ‡a Author's Trimodally porous SnO2 nanospheres with three-dimensional interconnectivity and size tunability: a one-pot synthetic route and potential application as an extremely sensitive ethanol detector | ||
670 | ‡a Author's Ultra-fast responding and recovering C2H5OH sensors using SnO2 hollow spheres prepared and activated by Ni templates | ||
670 | ‡a Author's Ultraselective and sensitive detection of xylene and toluene for monitoring indoor air pollution using Cr-doped NiO hierarchical nanostructures. | ||
670 | ‡a Author's Vertically ordered hematite nanotube array as an ultrasensitive and rapid response acetone sensor. | ||
670 | ‡a wikidata authority control ‡u https://viaf.org/processed/ISNI|000000046508222X | ||
670 | ‡a wikidata authority control ‡u https://viaf.org/processed/KRNLK|KAC201835960 | ||
670 | ‡a wikidata authority control ‡u https://viaf.org/viaf/140153061334119202432 | ||
909 | ‡a (orcid) 0000000230753623 ‡9 1 | ||
919 | ‡a selectivedetectionofno2andc2h5ohusingaco3o4decoratedznonanowirenetworksensor ‡A Selective detection of NO2 and C2H5OH using a Co3O4-decorated ZnO nanowire network sensor ‡9 1 | ||
919 | ‡a newconceptforobtainingsno2fiberintubenanostructureswithsuperiorelectrochemicalproperties ‡A A new concept for obtaining SnO2 fiber-in-tube nanostructures with superior electrochemical properties. ‡9 1 | ||
919 | ‡a newstrategyfordetectingplanthormoneethyleneusingoxidesemiconductorchemiresistorsexceptionalgasselectivityandresponsetailoredbynanoscalecr2o3catalyticoverlayer ‡A A New Strategy for Detecting Plant Hormone Ethylene Using Oxide Semiconductor Chemiresistors: Exceptional Gas Selectivity and Response Tailored by Nanoscale Cr2O3 Catalytic Overlayer ‡9 1 | ||
919 | ‡a newstrategyforhumidityindependentoxidechemiresistorsdynamicselfrefreshingofin2o3sensingsurfaceassistedbylayerbylayercoatedceo2nanoclusters ‡A A New Strategy for Humidity Independent Oxide Chemiresistors: Dynamic Self-Refreshing of In2 O3 Sensing Surface Assisted by Layer-by-Layer Coated CeO2 Nanoclusters. ‡9 1 | ||
919 | ‡a co3o4sno2hollowheteronanostructuresfacilecontrolofgasselectivitybycompositionaltuningofsensingmaterialsviagalvanicreplacement ‡A Co3O4-SnO2 Hollow Heteronanostructures: Facile Control of Gas Selectivity by Compositional Tuning of Sensing Materials via Galvanic Replacement ‡9 1 | ||
919 | ‡a designandsynthesisofmicronsizedsphericalaggregatescomposedofhollowfe2o3nanospheresforuseinlithiumionbatteries ‡A Design and synthesis of micron-sized spherical aggregates composed of hollow Fe2O3 nanospheres for use in lithium-ion batteries. ‡9 1 | ||
919 | ‡a designofhighlyselectivegassensorsviaphysicochemicalmodificationofoxidenanowiresoverview ‡A Design of Highly Selective Gas Sensors via Physicochemical Modification of Oxide Nanowires: Overview ‡9 1 | ||
919 | ‡a designofhighlysensitiveandselectiveau@nioyolkshellnanoreactorsforgassensorapplications ‡A Design of highly sensitive and selective Au@NiO yolk-shell nanoreactors for gas sensor applications. ‡9 1 | ||
919 | ‡a designofhighlysensitivec2h5ohsensorsusingselfassembledznonanostructures ‡A Design of highly sensitive C2H5OH sensors using self-assembled ZnO nanostructures ‡9 1 | ||
919 | ‡a dualroleofmultiroomstructuredsndopedniomicrospheresforultrasensitiveandhighlyselectivedetectionofxylene ‡A Dual Role of Multiroom-Structured Sn-Doped NiO Microspheres for Ultrasensitive and Highly Selective Detection of Xylene ‡9 1 | ||
919 | ‡a electrochemicalpropertiesoftungstensulfidecarboncompositemicrospherespreparedbyspraypyrolysis ‡A Electrochemical properties of tungsten sulfide-carbon composite microspheres prepared by spray pyrolysis ‡9 1 | ||
919 | ‡a electrochemicalpropertiesofyolkshellstructuredznfesmulticomponentsulfidematerialswitha12znfemolarratio ‡A Electrochemical properties of yolk-shell-structured Zn-Fe-S multicomponent sulfide materials with a 1:2 Zn/Fe molar ratio. ‡9 1 | ||
919 | ‡a electronicsensitizationoftheresponsetoc2h5ohofptypenionanofibersbyfedoping ‡A Electronic sensitization of the response to C2H5OH of p-type NiO nanofibers by Fe doping ‡9 1 | ||
919 | ‡a enhancedethanolsensingcharacteristicsofin2o3decoratedniohollownanostructuresviamodulationofholeaccumulationlayers ‡A Enhanced ethanol sensing characteristics of In2O3-decorated NiO hollow nanostructures via modulation of hole accumulation layers ‡9 1 | ||
919 | ‡a extremelysensitiveandselectivenoprobebasedonvillilikewo3nanostructuresforapplicationtoexhaledbreathanalyzers ‡A Extremely sensitive and selective NO probe based on villi-like WO3 nanostructures for application to exhaled breath analyzers ‡9 1 | ||
919 | ‡a facilecontrolofc2h5ohsensingcharacteristicsbydecoratingdiscreteagnanoclustersonsno2nanowirenetworks ‡A Facile control of C₂H₅OH sensing characteristics by decorating discrete Ag nanoclusters on SnO₂ nanowire networks ‡9 1 | ||
919 | ‡a flamespraypyrolysisforfindingmulticomponentnanomaterialswithsuperiorelectrochemicalpropertiesinthecoo10feo10systemforuseinlithiumionbatteries ‡A Flame spray pyrolysis for finding multicomponent nanomaterials with superior electrochemical properties in the CoO(x)-FeO(x) system for use in lithium-ion batteries ‡9 1 | ||
919 | ‡a flexibleroomtemperaturenh3sensorforultrasensitiveselectiveandhumidityindependentgasdetection ‡A Flexible Room-Temperature NH3 Sensor for Ultrasensitive, Selective, and Humidity-Independent Gas Detection ‡9 1 | ||
919 | ‡a gasselectivitycontrolinco3o4sensorviaconcurrenttuningofgasreformingandgasfilteringusingnanoscaleheterooverlayerofcatalyticoxides ‡A Gas Selectivity Control in Co3O4 Sensor via Concurrent Tuning of Gas Reforming and Gas Filtering using Nanoscale Hetero-Overlayer of Catalytic Oxides ‡9 1 | ||
919 | ‡a generalstrategyfordesigninghighlyselectivegassensingnanoreactorsmorphologicalcontrolofsno2hollowspheresandconfigurationaltuningofaucatalysts ‡A General Strategy for Designing Highly Selective Gas-Sensing Nanoreactors: Morphological Control of SnO2 Hollow Spheres and Configurational Tuning of Au Catalysts ‡9 1 | ||
919 | ‡a highlyselectiveandsensitivedetectionofbreathisoprenebytailoredgasreformingasynergisticcombinationofmacroporouswosub3subspheresandaucatalysts ‡A Highly Selective and Sensitive Detection of Breath Isoprene by Tailored Gas Reforming: A Synergistic Combination of Macroporous WO<sub>3</sub> Spheres and Au Catalysts ‡9 1 | ||
919 | ‡a highlyselectivexylenesensorbasedonnionimoo4nanocompositehierarchicalspheresforindoorairmonitoring ‡A Highly Selective Xylene Sensor Based on NiO/NiMoO4 Nanocomposite Hierarchical Spheres for Indoor Air Monitoring ‡9 1 | ||
919 | ‡a highlysensitiveandselectivepbtio3gassensorswithnegligiblehumidityinterferenceinambientatmosphere ‡A Highly Sensitive and Selective PbTiO3 Gas Sensors with Negligible Humidity Interference in Ambient Atmosphere ‡9 1 | ||
919 | ‡a highlysensitiveandselectivetrimethylaminesensorusing1dimensionalznocr2o3heteronanostructures ‡A Highly sensitive and selective trimethylamine sensor using one-dimensional ZnO-Cr2O3 hetero-nanostructures ‡9 1 | ||
919 | ‡a humidityindependentgassensorsusingprdopedin2o3macroporousspheresroleofcyclicpr3+pr4+redoxreactionsinsuppressionofwaterpoisoningeffect ‡A Humidity-Independent Gas Sensors Using Pr-Doped In2O3 Macroporous Spheres: Role of Cyclic Pr3+/Pr4+ Redox Reactions in Suppression of Water-Poisoning Effect ‡9 1 | ||
919 | ‡a humidityindependentoxidesemiconductorchemiresistorsusingterbiumdopedsno2yolkshellspheresforrealtimebreathanalysis ‡A Humidity-independent Oxide Semiconductor Chemiresistors Using Terbium-doped SnO2 Yolk-Shell Spheres for Real-time Breath Analysis. ‡9 1 | ||
919 | ‡a impedancespectroscopicanalysisoneffectsofpartialoxidationoftinbottomelectrodeandmicrostructureofamorphousandcrystallinehfo2thinfilmsontheirbipolarresistiveswitching ‡A Impedance spectroscopic analysis on effects of partial oxidation of TiN bottom electrode and microstructure of amorphous and crystalline HfO2 thin films on their bipolar resistive switching ‡9 1 | ||
919 | ‡a kilogramscalesynthesisofpdloadedquintupleshelledco3o4microreactorsandtheirapplicationtoultrasensitiveandultraselectivedetectionofmethylbenzenes ‡A Kilogram-scale synthesis of Pd-loaded quintuple-shelled Co3O4 microreactors and their application to ultrasensitive and ultraselective detection of methylbenzenes. ‡9 1 | ||
919 | ‡a largescaleproductionofyolkshellβtricalciumphosphatepowdersandtheirbioactivitiesasnovelbonesubstitutes ‡A Large scale production of yolk-shell β-tricalcium phosphate powders, and their bioactivities as novel bone substitutes. ‡9 1 | ||
919 | ‡a metalorganicframeworkderivedhollowhierarchicalco3o4nanocageswithtunablesizeandmorphologyultrasensitiveandhighlyselectivedetectionofmethylbenzenes ‡A Metal-Organic Framework-Derived Hollow Hierarchical Co3O4 Nanocages with Tunable Size and Morphology: Ultrasensitive and Highly Selective Detection of Methylbenzenes. ‡9 1 | ||
919 | ‡a metaloxidegassensorswithaunanoclustercatalyticoverlayertowardtuninggasselectivityandresponseusinganovelbilayersensordesign ‡A Metal Oxide Gas Sensors with Au Nanocluster Catalytic Overlayer: Toward Tuning Gas Selectivity and Response Using a Novel Bilayer Sensor Design ‡9 1 | ||
919 | ‡a microstructuralcontrolandselectivec2h5ohsensingpropertiesofzn2sno4nanofiberspreparedbyelectrospinning ‡A Microstructural control and selective C2H5OH sensing properties of Zn2SnO4 nanofibers prepared by electrospinning ‡9 1 | ||
919 | ‡a nioniwo4compositeyolkshellsphereswithnanoscalenioouterlayerforultrasensitiveandselectivedetectionofsubppmlevelpxylene ‡A NiO/NiWO4 Composite Yolk-Shell Spheres with Nanoscale NiO Outer Layer for Ultrasensitive and Selective Detection of Subppm-level p-Xylene ‡9 1 | ||
919 | ‡a novelfabricationofansno ‡A Novel fabrication of an SnO ‡9 1 | ||
919 | ‡a novelfabricationofansno2nanowiregassensorwithhighsensitivity ‡A Novel fabrication of an SnO(2) nanowire gas sensor with high sensitivity. ‡9 1 | ||
919 | ‡a 1potrapidsynthesisofcoreshellstructurednio@tio2nanopowdersandtheirexcellentelectrochemicalpropertiesasanodematerialsforlithiumionbatteries ‡A One-pot rapid synthesis of core-shell structured NiO@TiO2 nanopowders and their excellent electrochemical properties as anode materials for lithium ion batteries. ‡9 1 | ||
919 | ‡a 1potsynthesisofpdloadedsno ‡A One-pot synthesis of Pd-loaded SnO ‡9 1 | ||
919 | ‡a perforatedmetaloxidecarbonnanotubecompositemicrosphereswithenhancedlithiumionstorageproperties ‡A Perforated Metal Oxide-Carbon Nanotube Composite Microspheres with Enhanced Lithium-Ion Storage Properties ‡9 1 | ||
919 | ‡a pureandpalladiumloadedco3o4hollowhierarchicalnanostructureswithgiantandultraselectivechemiresistivitytoxyleneandtoluene ‡A Pure and palladium-loaded Co3O4 hollow hierarchical nanostructures with giant and ultraselective chemiresistivity to xylene and toluene. ‡9 1 | ||
919 | ‡a rationaldesignofsemiconductorbasedchemiresistorsandtheirlibrariesfornextgenerationartificialolfaction ‡A Rational Design of Semiconductor-Based Chemiresistors and their Libraries for Next-Generation Artificial Olfaction ‡9 1 | ||
919 | ‡a selectivedetectionofno2usingcrdopedcuonanorods ‡A Selective detection of NO2 using Cr-doped CuO nanorods. ‡9 1 | ||
919 | ‡a studyofalinitecementhydrationbyimpedancespectroscopy ‡A Study of alinite cement hydration by impedance spectroscopy ‡9 1 | ||
919 | ‡a superionichalogenrich51argyroditesusinginsitunanocrystalnucleationandrapidcrystalgrowth ‡A Superionic Halogen-Rich Li-Argyrodites Using In Situ Nanocrystal Nucleation and Rapid Crystal Growth ‡9 1 | ||
919 | ‡a superiornaionstoragepropertiesofhighaspectratiosnsenanoplatespreparedbyaspraypyrolysisprocess ‡A Superior Na-ion storage properties of high aspect ratio SnSe nanoplates prepared by a spray pyrolysis process ‡9 1 | ||
919 | ‡a synthesisandelectrochemicalpropertiesofsphericalandhollowstructurednioaggregatescreatedbycombiningthekirkendalleffectandostwaldripening ‡A Synthesis and electrochemical properties of spherical and hollow-structured NiO aggregates created by combining the Kirkendall effect and Ostwald ripening. ‡9 1 | ||
919 | ‡a thermallyassistednanotransferprintingwithsub20nmresolutionand8inchwaferscalability ‡A Thermally assisted nanotransfer printing with sub-20-nm resolution and 8-inch wafer scalability ‡9 1 | ||
919 | ‡a thinwalledniotubesfunctionalizedwithcatalyticptforhighlyselectivec2h5ohsensorsusingelectrospunfibersasasacrificialtemplate ‡A Thin-walled NiO tubes functionalized with catalytic Pt for highly selective C2H5OH sensors using electrospun fibers as a sacrificial template ‡9 1 | ||
919 | ‡a towardbreathanalysisonachipfordiseasediagnosisusingsemiconductorbasedchemiresistorsrecentprogressandfutureperspectives ‡A Toward breath analysis on a chip for disease diagnosis using semiconductor-based chemiresistors: recent progress and future perspectives. ‡9 1 | ||
919 | ‡a transformationofznonanobeltsintosinglecrystallinemn3o4nanowires ‡A Transformation of ZnO nanobelts into single-crystalline Mn3O4 nanowires. ‡9 1 | ||
919 | ‡a trimodallyporoussno2nanosphereswith3dimensionalinterconnectivityandsizetunabilitya1potsyntheticrouteandpotentialapplicationasanextremelysensitiveethanoldetector ‡A Trimodally porous SnO2 nanospheres with three-dimensional interconnectivity and size tunability: a one-pot synthetic route and potential application as an extremely sensitive ethanol detector ‡9 1 | ||
919 | ‡a ultrafastrespondingandrecoveringc2h5ohsensorsusingsno2hollowspherespreparedandactivatedby2templates ‡A Ultra-fast responding and recovering C2H5OH sensors using SnO2 hollow spheres prepared and activated by Ni templates ‡9 1 | ||
919 | ‡a ultraselectiveandsensitivedetectionofxyleneandtolueneformonitoringindoorairpollutionusingcrdopedniohierarchicalnanostructures ‡A Ultraselective and sensitive detection of xylene and toluene for monitoring indoor air pollution using Cr-doped NiO hierarchical nanostructures. ‡9 1 | ||
919 | ‡a verticallyorderedhematitenanotubearrayasanultrasensitiveandrapidresponseacetonesensor ‡A Vertically ordered hematite nanotube array as an ultrasensitive and rapid response acetone sensor. ‡9 1 | ||
919 | ‡a 1potsynthesisofpdloadedsno2yolkshellnanostructuresforultraselectivemethylbenzenesensors ‡A One-pot synthesis of Pd-loaded SnO(2) yolk-shell nanostructures for ultraselective methyl benzene sensors. ‡9 1 | ||
946 | ‡a b ‡9 1 | ||
947 | ‡a KR ‡9 1 | ||
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996 | ‡2 ISNI|0000000473993381 | ||
996 | ‡2 DNB|1154393011 | ||
996 | ‡2 ISNI|0000000465100029 | ||
996 | ‡2 ISNI|0000000475031397 | ||
996 | ‡2 ISNI|0000000477771807 | ||
996 | ‡2 ISNI|000000046327288X | ||
996 | ‡2 ISNI|0000000464781045 | ||
996 | ‡2 CAOONL|ncf10882333 | ||
996 | ‡2 DNB|1159185832 | ||
996 | ‡2 ISNI|0000000503609548 | ||
996 | ‡2 ISNI|0000000473882614 | ||
996 | ‡2 LC|no2013111260 | ||
996 | ‡2 LC|n 2018015698 | ||
996 | ‡2 ISNI|0000000074783088 | ||
996 | ‡2 ISNI|0000000473590144 | ||
996 | ‡2 SUDOC|091634733 | ||
996 | ‡2 ISNI|0000000474909911 | ||
996 | ‡2 ISNI|0000000468543319 | ||
996 | ‡2 ISNI|0000000464374589 | ||
996 | ‡2 ISNI|0000000512771205 | ||
996 | ‡2 ISNI|0000000463656795 | ||
996 | ‡2 LC|no2011193214 | ||
996 | ‡2 ISNI|0000000516883351 | ||
996 | ‡2 DBC|87097969571549 | ||
996 | ‡2 ISNI|0000000465182976 | ||
996 | ‡2 ISNI|0000000479286274 | ||
996 | ‡2 ISNI|0000000474056859 | ||
996 | ‡2 ISNI|0000000465106885 | ||
996 | ‡2 ISNI|0000000473820069 | ||
996 | ‡2 ISNI|000000046097881X | ||
996 | ‡2 ISNI|000000049406256X | ||
996 | ‡2 ISNI|0000000505924007 | ||
996 | ‡2 ISNI|0000000484956519 | ||
996 | ‡2 ISNI|0000000505780410 | ||
996 | ‡2 ISNI|0000000474005808 | ||
996 | ‡2 ISNI|0000000505324888 | ||
996 | ‡2 ISNI|0000000464374829 | ||
996 | ‡2 ISNI|0000000476697051 | ||
996 | ‡2 ISNI|0000000472379689 | ||
996 | ‡2 ISNI|0000000513221264 | ||
996 | ‡2 ISNI|0000000473916570 | ||
996 | ‡2 ISNI|0000000505953596 | ||
996 | ‡2 ISNI|0000000512339957 | ||
996 | ‡2 ISNI|0000000468057337 | ||
996 | ‡2 ISNI|0000000477782434 | ||
996 | ‡2 ISNI|0000000468028333 | ||
996 | ‡2 DNB|1158919611 | ||
996 | ‡2 BNF|16554089 | ||
996 | ‡2 ISNI|0000000512522356 | ||
996 | ‡2 ISNI|0000000463579929 | ||
996 | ‡2 ISNI|000000046467010X | ||
996 | ‡2 ISNI|0000000505971129 | ||
996 | ‡2 LC|nb2003048520 | ||
996 | ‡2 ISNI|0000000023086813 | ||
996 | ‡2 ISNI|0000000493426149 | ||
996 | ‡2 ISNI|000000048011594X | ||
996 | ‡2 BIBSYS|11018796 | ||
996 | ‡2 ISNI|0000000473804261 | ||
996 | ‡2 ISNI|0000000461051522 | ||
996 | ‡2 DNB|1056162333 | ||
996 | ‡2 NUKAT|n 2004251236 | ||
996 | ‡2 LC|n 79135536 | ||
996 | ‡2 LC|n 2019062707 | ||
996 | ‡2 ISNI|0000000492328977 | ||
996 | ‡2 ISNI|0000000494059360 | ||
996 | ‡2 ISNI|0000000505826802 | ||
996 | ‡2 DNB|1232244996 | ||
996 | ‡2 ISNI|0000000480116133 | ||
996 | ‡2 ISNI|000000046447976X | ||
996 | ‡2 ISNI|000000048027043X | ||
996 | ‡2 ISNI|0000000477763321 | ||
996 | ‡2 ISNI|0000000506837562 | ||
996 | ‡2 ISNI|0000000467780275 | ||
996 | ‡2 SUDOC|243280955 | ||
996 | ‡2 ISNI|0000000052744512 | ||
996 | ‡2 ISNI|0000000465027327 | ||
996 | ‡2 LIH|LNB:COX_s_;=B_z_ | ||
996 | ‡2 ISNI|0000000480270536 | ||
996 | ‡2 ISNI|0000000468030118 | ||
996 | ‡2 ISNI|0000000475052665 | ||
996 | ‡2 NII|DA15019658 | ||
996 | ‡2 ISNI|0000000508506564 | ||
996 | ‡2 ISNI|0000000476967971 | ||
996 | ‡2 ISNI|0000000505285516 | ||
996 | ‡2 ISNI|000000046493235X | ||
996 | ‡2 ISNI|000000049406387X | ||
996 | ‡2 ISNI|000000046777633X | ||
996 | ‡2 ISNI|0000000512340456 | ||
996 | ‡2 BIBSYS|7058374 | ||
996 | ‡2 BNE|XX5011096 | ||
996 | ‡2 ISNI|0000000493422041 | ||
996 | ‡2 ISNI|0000000473802098 | ||
996 | ‡2 ISNI|0000000473875342 | ||
996 | ‡2 DNB|1187983276 | ||
996 | ‡2 ISNI|000000046067885X | ||
996 | ‡2 LC|no2022107054 | ||
996 | ‡2 BIBSYS|90623538 | ||
996 | ‡2 ISNI|0000000509837576 | ||
996 | ‡2 ISNI|0000000464668704 | ||
996 | ‡2 ISNI|0000000464838873 | ||
996 | ‡2 ISNI|0000000508333800 | ||
996 | ‡2 ISNI|0000000465029269 | ||
996 | ‡2 ISNI|0000000479233738 | ||
996 | ‡2 ISNI|0000000464711039 | ||
996 | ‡2 ISNI|0000000491310572 | ||
996 | ‡2 RERO|A027595924 | ||
996 | ‡2 ISNI|0000000039077284 | ||
996 | ‡2 ISNI|0000000464463098 | ||
996 | ‡2 ISNI|0000000505225396 | ||
996 | ‡2 DNB|1317342062 | ||
996 | ‡2 ISNI|0000000492075375 | ||
996 | ‡2 ISNI|0000000512744063 | ||
996 | ‡2 LC|no2010165368 | ||
996 | ‡2 ISNI|000000047927285X | ||
996 | ‡2 ISNI|0000000463367694 | ||
996 | ‡2 ISNI|0000000491601273 | ||
996 | ‡2 RERO|A024786431 | ||
996 | ‡2 ISNI|0000000463407529 | ||
996 | ‡2 ISNI|0000000465118624 | ||
996 | ‡2 ISNI|0000000480203325 | ||
996 | ‡2 ISNI|0000000040023654 | ||
996 | ‡2 ISNI|0000000473364390 | ||
996 | ‡2 DNB|1276438508 | ||
996 | ‡2 ISNI|0000000492097507 | ||
996 | ‡2 ISNI|0000000491639204 | ||
996 | ‡2 ISNI|0000000464828835 | ||
996 | ‡2 ISNI|0000000468460046 | ||
996 | ‡2 ISNI|000000051486240X | ||
996 | ‡2 ISNI|0000000460891255 | ||
996 | ‡2 ISNI|0000000478950081 | ||
996 | ‡2 ISNI|0000000503519497 | ||
996 | ‡2 ISNI|0000000479276324 | ||
996 | ‡2 ISNI|0000000467775580 | ||
996 | ‡2 ISNI|0000000512279421 | ||
996 | ‡2 ISNI|0000000473827615 | ||
996 | ‡2 ISNI|0000000474078126 | ||
996 | ‡2 ISNI|000000050505243X | ||
996 | ‡2 ISNI|0000000474873947 | ||
996 | ‡2 ISNI|0000000512735546 | ||
996 | ‡2 NDL|00954238 | ||
996 | ‡2 ISNI|0000000504561777 | ||
996 | ‡2 ISNI|0000000512530778 | ||
996 | ‡2 ISNI|0000000505178358 | ||
996 | ‡2 ISNI|0000000512756320 | ||
996 | ‡2 ISNI|000000046802763X | ||
996 | ‡2 ISNI|0000000472547080 | ||
996 | ‡2 ISNI|0000000480030102 | ||
996 | ‡2 ISNI|0000000513643213 | ||
996 | ‡2 ISNI|0000000516893525 | ||
996 | ‡2 ISNI|0000000464612604 | ||
996 | ‡2 ISNI|0000000468705090 | ||
996 | ‡2 ISNI|0000000504501678 | ||
996 | ‡2 ISNI|0000000492251156 | ||
996 | ‡2 ISNI|0000000473915287 | ||
997 | ‡a 1965 2022 lived 0000 0000 ‡9 1 | ||
998 | ‡a 이종흔 ‡2 ISNI|000000046508222X ‡3 suggested |