Nome |
# |
Direct printing of a multi-layer sensor on PET substrate for CO 2 detection, file dfe4d229-c8c1-bb0a-e053-d805fe0a78d9
|
60
|
Towards environmentally friendly accelerometers based on bacterial cellulose, file dfe4d22e-6f08-bb0a-e053-d805fe0a78d9
|
43
|
An eco-friendly disposable plasmonic sensor based on bacterial cellulose and gold, file dfe4d229-d436-bb0a-e053-d805fe0a78d9
|
23
|
An Inkjet Printed CO2 Gas Sensor, file dfe4d229-f7c2-bb0a-e053-d805fe0a78d9
|
18
|
Properties of Polystyrene Clay Nanocomposites Prepared Using Two New Imidazolium Surfactants, file dfe4d229-f5c2-bb0a-e053-d805fe0a78d9
|
11
|
Ionic polymer-metal composites (IPMCs) and ionic polymer-polymer composites (IP2Cs): Effects of electrode on mechanical, thermal and electromechanical behaviour, file dfe4d228-47c1-bb0a-e053-d805fe0a78d9
|
10
|
Geometrical and thermal influences on a bacterial cellulose-based sensing element for acceleration measurements, file dfe4d22e-462d-bb0a-e053-d805fe0a78d9
|
7
|
Modeling of Bacterial Cellulose-Based Composite, file bee977d9-01d5-41de-847e-204746880223
|
6
|
Performance Characterization of a Biodegradable Deformation Sensor based on Bacterial Cellulose, file dfe4d229-f59d-bb0a-e053-d805fe0a78d9
|
6
|
Investigation on the role of ionic liquids in the output signal produced by bacterial cellulose-based mechanoelectrical transducers, file dfe4d22e-13b8-bb0a-e053-d805fe0a78d9
|
6
|
Modeling of a Fractional Order Element Based on Bacterial Cellulose and Ionic Liquids, file dfe4d22e-7ce0-bb0a-e053-d805fe0a78d9
|
6
|
Green LSPR Sensors Based on Thin Bacterial Cellulose Waveguides for Disposable Biosensor Implementation, file 4c41d8a1-f217-48c2-a50f-0963d6916b79
|
5
|
Composition-controlled chemical bath deposition of Fe-doped NiO microflowers for boosting oxygen evolution reaction, file 8ee8738e-2f36-4f8c-a443-edbe53c32314
|
5
|
Synthesis and characterization of new polyamides containing 6,6′-methylenediquinoline units, file 8f612aa2-1cde-4cb3-9116-830f0e347b65
|
5
|
Green Energy Harvester from Vibrations Based on Bacterial Cellulose, file dfe4d229-e945-bb0a-e053-d805fe0a78d9
|
5
|
Peptide Modified Electrospun Glycopolymer Fibers, file dfe4d22d-7ac2-bb0a-e053-d805fe0a78d9
|
5
|
Co‐Deposition of Plasma‐Polymerized Polyacrylic Acid and Silver Nanoparticles for the Production of Nanocomposite Coatings Using a Non‐Equilibrium Atmospheric Pressure Plasma Jet, file dfe4d22b-0932-bb0a-e053-d805fe0a78d9
|
4
|
Towards New Piezoresistive Sensors: Thermal, Mechanical and Electrical Investigation of a PDMS-Carbon Black Nanocomposite, file dfe4d22d-ce47-bb0a-e053-d805fe0a78d9
|
4
|
Functionalisable Epoxy-rich Electrospun Fibres Based on Renewable Terpene for Multi-Purpose Applications, file dfe4d22e-9a9f-bb0a-e053-d805fe0a78d9
|
4
|
Composition-controlled chemical bath deposition of Fe-doped NiO microflowers for boosting oxygen evolution reaction, file a9b64ca5-ea21-4f8f-8f64-5820a5370d48
|
3
|
Pullulan-1-Ethyl-3-Methylimidazolium Tetrafluoroborate Composite as a Water-Soluble Active Component of a Vibration Sensor, file cd429145-6aa1-46a1-af38-2a787f4bf1b9
|
3
|
A new class of ionic electroactive polymers based on green synthesis, file dfe4d22b-9473-bb0a-e053-d805fe0a78d9
|
3
|
Thermal, Mechanical and Electrical Investigation of Elastomer-Carbon Black Nanocomposite Piezoresistivity, file dfe4d22c-e63c-bb0a-e053-d805fe0a78d9
|
3
|
Poly(ε-caprolactone)–Ionic Liquid Composite as Piezoionic Mechanical Sensor, file 30d94433-bc40-4958-96c8-5f704724b41b
|
2
|
Photo-Oxidation of Polystyrene/Montmorillonite Nanocomposites, file 6d0c449f-f7b0-4127-9188-3456909d450b
|
2
|
Reactive microspheres as active fillers for epoxy resins, file dfe4d226-f7d7-bb0a-e053-d805fe0a78d9
|
2
|
Synthesis of functionalized polyhedral oligomeric silsesquioxane (POSS) macromers by microwave assisted 1,3-dipolar cycloaddition, file dfe4d227-7a8e-bb0a-e053-d805fe0a78d9
|
2
|
Carbon Black based capacitive Fractional Order Element towards a new electronic device, file dfe4d228-de64-bb0a-e053-d805fe0a78d9
|
2
|
Deposition of plasma-polymerized polyacrylic acid coatings by a nonequilibrium atmospheric pressure nanopulsed plasma jet, file dfe4d22a-6e59-bb0a-e053-d805fe0a78d9
|
2
|
A vortex-shedding flowmeter based on IPMCs, file dfe4d22a-6e5a-bb0a-e053-d805fe0a78d9
|
2
|
Green Fractional Order Elements Based on Bacterial Cellulose and Ionic Liquids, file dfe4d22c-9f8a-bb0a-e053-d805fe0a78d9
|
2
|
Realization and characterization of carbon black based fractional order element, file dfe4d22c-b4ea-bb0a-e053-d805fe0a78d9
|
2
|
Low Cost Inkjet Printed Sensors: From Physical to Chemical Sensors, file dfe4d22d-ce4a-bb0a-e053-d805fe0a78d9
|
2
|
Modeling of a Bacterial Cellulose-based Composite in Bending Configuration, file 8e55d324-41a3-4fc5-8f45-407ea6683225
|
1
|
The Isothermal Degradation of Some Polyetherketones : a Comparative Kinetic Study between Long-term and Short-term Experiments, file dfe4d226-f4df-bb0a-e053-d805fe0a78d9
|
1
|
Evaluation of the influence of various (ether, ketone and sulfone) groups on the apparent activation energy values of polymer degradation, file dfe4d226-f4e1-bb0a-e053-d805fe0a78d9
|
1
|
Study of the Organic-Inorganic Phase Interactions in Polyester-Titania Hybrids, file dfe4d226-f78f-bb0a-e053-d805fe0a78d9
|
1
|
Kinetic study of the thermal degradation of PS/MMT nanocomposites prepared with imidazolium surfactants, file dfe4d226-f90e-bb0a-e053-d805fe0a78d9
|
1
|
Determination of Degradation Apparent Activation Energy Values of Polymers Regression of kinetic parameters derived from TG Data, file dfe4d227-1b9d-bb0a-e053-d805fe0a78d9
|
1
|
Surface-Initiated ATRP Modification of Tissue Culture Substrates:
Poly(glycerol monomethacrylate) as an Antifouling Surface, file dfe4d227-2a68-bb0a-e053-d805fe0a78d9
|
1
|
Kinetics of the Isothermal Degradation of Model Polymers Containing Ether, Ketone, and Sulfone Groups, file dfe4d227-3bcd-bb0a-e053-d805fe0a78d9
|
1
|
EFFECT OF EXFOLIATION DEGREE ON THE RATE OF PHOTO-OXIDATION OF POLYSTYRENE/MONTMORILLONITE NANOCOMPOSITES, file dfe4d227-5c8e-bb0a-e053-d805fe0a78d9
|
1
|
Influence of Montmorillonite nanodispersion on Polystyrene Photo-oxidation, file dfe4d227-8cf5-bb0a-e053-d805fe0a78d9
|
1
|
Tridimensional ionic polymer metal composites: optimization of the manufacturing techniques, file dfe4d227-a7c2-bb0a-e053-d805fe0a78d9
|
1
|
A Bacterial Cellulose Based Mass Sensor, file dfe4d229-c888-bb0a-e053-d805fe0a78d9
|
1
|
Green Inertial Sensors based on Bacterial Cellulose, file dfe4d229-c8bf-bb0a-e053-d805fe0a78d9
|
1
|
Geometrical Analysis of a Bacterial Cellulose-Based Sensing Element, file dfe4d229-c916-bb0a-e053-d805fe0a78d9
|
1
|
Realization of green fractional order devices by using bacterial cellulose, file dfe4d229-e2ee-bb0a-e053-d805fe0a78d9
|
1
|
A Kinetic Study of the Thermal and Oxidative Degradations of a New Poly(Arylene)ether Copolymer, file dfe4d22a-b931-bb0a-e053-d805fe0a78d9
|
1
|
An LSPR Sensor based on a thin slab waveguide of bacterial cellulose, file dfe4d22c-9f88-bb0a-e053-d805fe0a78d9
|
1
|
A generating all-polymeric touching sensing system, file dfe4d22c-9f8c-bb0a-e053-d805fe0a78d9
|
1
|
Fondamenti e applicazioni della Spettroscopia Fotolettronica a Raggi X (XPS) nello studio delle superfici polimeriche, file dfe4d22d-966a-bb0a-e053-d805fe0a78d9
|
1
|
Green Nonlinear Energy Harvester from Vibrations based on Bacterial Cellulose, file dfe4d22d-a070-bb0a-e053-d805fe0a78d9
|
1
|
Study of an ionic polymer-metal composite based flowmeter, file dfe4d22d-aa5e-bb0a-e053-d805fe0a78d9
|
1
|
Mechanical and electrical characterization of electroactive composites, file dfe4d22d-aa5f-bb0a-e053-d805fe0a78d9
|
1
|
'Paper'based sensor for deformation measurements, file dfe4d22d-d8ec-bb0a-e053-d805fe0a78d9
|
1
|
A Green Deformation Sensor Based on Bacterial Cellulose and Bio-Derived Ionic Liquids, file dfe4d22e-7cde-bb0a-e053-d805fe0a78d9
|
1
|
Conditioning of Bacterial Cellulose-based Motion Sensors, file dfe4d22e-8297-bb0a-e053-d805fe0a78d9
|
1
|
A Piezoresistive Bacterial Cellulose-based Sensor for Axial Displacement Measurements, file dfe4d22e-a8c2-bb0a-e053-d805fe0a78d9
|
1
|
Investigation of Bacterial Cellulose-based Fractional Order Element behaviour, file dfe4d22e-a990-bb0a-e053-d805fe0a78d9
|
1
|
Totale |
292 |