Nome |
# |
The role of self-assembled monolayers in electronic devices, file ddc633e4-3285-4e2e-e053-3705fe0a4c80
|
2.191
|
A study on CdCl2 activation of CBD-CdS films, file ddc633e4-3950-4e2e-e053-3705fe0a4c80
|
244
|
Synthesis and gas-sensing properties of pd-doped SnO2 nanocrystals. A case study of a general methodology for doping metal oxide nanocrystals, file ddc633e2-bafc-4e2e-e053-3705fe0a4c80
|
241
|
Detection of volatile organic compounds: From chemical gas sensors to terahertz spectroscopy, file ddc633e4-6e9b-4e2e-e053-3705fe0a4c80
|
210
|
Nickel oxide nanowires growth by VLS technique for gas sensing application, file ddc633e2-dac7-4e2e-e053-3705fe0a4c80
|
185
|
A new approach to evaluate vinegars quality: application of Small Sensor
System (S3) device coupled with enfleurage, file ddc633e3-5f0e-4e2e-e053-3705fe0a4c80
|
183
|
Influence of Nb-doping on hydrogen sensing performance of WO3 nanowires, file ddc633e3-5d3e-4e2e-e053-3705fe0a4c80
|
174
|
Bottle-brush-shaped heterostructures of NiO-ZnO nanowires: growth study and sensing properties, file ddc633e3-7f53-4e2e-e053-3705fe0a4c80
|
159
|
Electrospinning of Poly(vinyl alcohol)-Graphene oxide aligned fibers, file ddc633e4-1953-4e2e-e053-3705fe0a4c80
|
157
|
Nanostructures of Tungsten Trioxide, Nickel Oxide and Niobium Oxide for Chemical Sensing Applications, file ddc633e2-dd11-4e2e-e053-3705fe0a4c80
|
150
|
Metal oxides nanowires chemical/gas sensors: recent advances, file ddc633e4-38a1-4e2e-e053-3705fe0a4c80
|
145
|
Graphene-zinc oxide based nanomaterials for gas sensing devices, file ddc633e3-53a8-4e2e-e053-3705fe0a4c80
|
139
|
Assessment of integrated aerosol sampling techniques in indoor, confined and outdoor environments characterized by specific emission sources, file ddc633e4-502d-4e2e-e053-3705fe0a4c80
|
135
|
Titanium dioxide nanostructures chemical sensor, file ddc633e3-5a74-4e2e-e053-3705fe0a4c80
|
134
|
A Comparative Study on CdS Film Formation under Variable and Steady Bath-Temperature Conditions, file ddc633e4-3282-4e2e-e053-3705fe0a4c80
|
130
|
Tungsten Oxide Nanowires Chemical Sensors, file ddc633e2-dd15-4e2e-e053-3705fe0a4c80
|
118
|
NiO/ZnO nanowire-heterostructures by vapor phase growth for gas sensing, file ddc633e3-5550-4e2e-e053-3705fe0a4c80
|
118
|
Niobium Oxide Nanostructures for Chemical Sensing, file ddc633e2-db8b-4e2e-e053-3705fe0a4c80
|
115
|
Niobium and Tungsten Oxide Nanowires for Chemical Sensor, file ddc633e2-dd13-4e2e-e053-3705fe0a4c80
|
113
|
Low temperature gas sensing properties of Graphene Oxide/SnO2 nanowires
composite for H-2, file ddc633e3-5c6d-4e2e-e053-3705fe0a4c80
|
109
|
A composite structure based on reduced graphene oxide and metal oxide nanomaterials for chemical sensors, file ddc633e3-54e7-4e2e-e053-3705fe0a4c80
|
105
|
Low-Dimensional Nanostructures Based on Cobalt Oxide (Co3O4) in Chemical-Gas Sensing, file ddc633e4-6438-4e2e-e053-3705fe0a4c80
|
105
|
Recent Advancements in TiO2 Nanostructures: Sustainable Synthesis and Gas Sensing, file bc77151c-7a5b-480f-8fb7-2f6893e5f74e
|
104
|
Sensitivity-selectivity trade-offs in surface ionization gas detection, file ddc633e3-c32a-4e2e-e053-3705fe0a4c80
|
102
|
Highly sensitive and selective H 2 S chemical sensor based on ZnO nanomaterial, file ddc633e3-e2c7-4e2e-e053-3705fe0a4c80
|
100
|
Synthesis of Nanoporous TiO2 with the Use of Diluted Hydrogen Peroxide Solution and Its Application in Gas Sensing, file ddc633e3-f708-4e2e-e053-3705fe0a4c80
|
90
|
Surface properties of SnO2 nanolayers prepared by spin-coating and thermal oxidation, file ddc633e4-38a3-4e2e-e053-3705fe0a4c80
|
68
|
3D Multi-branched sno2 semiconductor nanostructures as opticalwaveguides, file ddc633e4-344c-4e2e-e053-3705fe0a4c80
|
61
|
Ultrathin gas permeable oxide membranes for chemical sensing: Nanoporous Ta2O5 test study, file ddc633e4-316b-4e2e-e053-3705fe0a4c80
|
46
|
UV-enhanced humidity sensing of chitosan–SnO2 hybrid nanowires, file ddc633e3-fb61-4e2e-e053-3705fe0a4c80
|
38
|
Tungsten Oxide Nanowires on Micro Hotplates for Gas Sensing Applications, file ddc633e2-db8d-4e2e-e053-3705fe0a4c80
|
30
|
Metal Oxides Nanowires for Chemical Sensing and Solid Oxide Fuel Cell Applications, file 8cd63b6a-4b26-4e56-a37b-6d7532866a6d
|
26
|
P‐Type Metal Oxide Semiconductor Thin Films: Synthesis and Chemical Sensor Applications, file ddc633e4-698a-4e2e-e053-3705fe0a4c80
|
21
|
Metal oxide nanowire chemical sensors: innovation and quality of life, file ddc633e3-5d37-4e2e-e053-3705fe0a4c80
|
13
|
Nanostructured metal oxide gas sensors, a survey of applications carried out at SENSOR lab, brescia (Italy) in the security and food quality fields, file ddc633e2-bd92-4e2e-e053-3705fe0a4c80
|
12
|
How chemoresistive sensors can learn from heterogeneous catalysis. Hints, issues, and perspectives, file ddc633e4-71a0-4e2e-e053-3705fe0a4c80
|
12
|
A new approach to studying the electrical behavior and the inhomogeneities of the Schottky barrier height, file 3749181b-98c7-4a59-bdf8-9b84df834cd0
|
8
|
Synthesis and characterization of mixed oxide nanowires for gas sensing, file ac6837ac-c6af-4ef9-9931-de760decc2d8
|
8
|
PRODUZIONE IN MASSA DI SENSORI DI GAS MEDIANTE DEPOSIZIONE PVD O VLS DI NANOFILI DI OSSIDI METALLICI SU SUBSTRATI ISOLANTI E SENSORI
COSÌ OTTENUTI, file ddc633e4-5cad-4e2e-e053-3705fe0a4c80
|
5
|
Influence of iron addition on ethanol and CO sensing properties of tin oxide prepared with the RGTO technique, file ddc633e2-abb4-4e2e-e053-3705fe0a4c80
|
3
|
The effect of structural characteristics of ZnO and NiO thin films on the performance of NiO/ZnO photodetectors, file 16748cbe-b050-4956-98d3-373f1b8e06cd
|
2
|
Surface-Driven Porphyrin Self-Assembly on Pre-Activated Si Substrates, file ddc633e2-b04e-4e2e-e053-3705fe0a4c80
|
2
|
The role of morphology in all-dielectric SERS: A comparison between conformal (T-rex) and non conformal TiO2 shells, file ddc633e4-2ac0-4e2e-e053-3705fe0a4c80
|
2
|
null, file 8fab0094-1e8a-4836-b9fd-362c7ec87486
|
1
|
Skin microbiota monitoring by nanowire MOS sensors, file ddc633e3-7ff6-4e2e-e053-3705fe0a4c80
|
1
|
Branch-like NiO/ZnO heterostructures for VOC sensing, file ddc633e3-8250-4e2e-e053-3705fe0a4c80
|
1
|
Plasma-Assisted Growth of β-MnO2Nanosystems as Gas Sensors for Safety and Food Industry Applications, file ddc633e3-ae99-4e2e-e053-3705fe0a4c80
|
1
|
MgCl2 activation of CdS films: An alternative for CdCl2, file ddc633e3-b65f-4e2e-e053-3705fe0a4c80
|
1
|
Selective H2S gas sensors based on ohmic hetero-interface of Au-functionalized WO3 nanowires, file ddc633e4-5aa0-4e2e-e053-3705fe0a4c80
|
1
|
Totale |
6.119 |