I always recommended BlueHost Reviews for my clients. How to find the best web hosting service for business websites.

Articles

Publications Dip

Print
Category: Articles
Published Date
Written by Super User Hits: 557

Dip Coating Publications


 

A self-referenced optical colorimetric sensor based on silver and gold nanoparticles for quantitative determination of hydrogen peroxide

P. J. Rivero, E. Ibañez, J. Goicoechea, A. Urrutia, I.R. Matías, F.J. Arregui

Effect of graphene oxide and fluorinated polymeric chains incorporated in a multilayered sol-gel nanocoating for the design of corrosion resistant and hydrophobic surfaces

J. D. Maeztu, P.J. Rivero, C. Berlanga, D.M. Bastidas, J.F. Palacio, R. Rodriguez

Enhancement of luminescence-based optical fiber oxygen sensors by tuning the distance between fluorophore layers

N. de Acha, C. Elosua, I.R. Matias, F.J. Arregui

An interpenetrating, microstructurable and covalently attached conducting polymer hydrogel for neural interfacespenetrating, microstructurable and covalently attached conducting polymer hydrogel for neural interface

C. Kleber, M. Bruns, K. Lienkamp, J. Rühe, M. Asplund

Photonic crystal fiber interferometer coated with a PAH/PAA nanolayer as humidity sensor

D. Lopez-Torres, C. Elosua, J. Villatoro, J. Zubia, M. Rothhardt, K. Schuster, F.J. Arregui

Single strand DNA detection by means of lossy mode resonance-based optical fiber devices

C.R. Zamarreño, P. Sanchez, I.R. Matias, F.J. Arregui, M.A. Ramos-Arroyo, M.Moreno-Igoa, B.Hernandez

Polarized Raman scattering and SEM combined full characterization of self-assembled nematic thin films

R. Srikantharajah, K. Gerstner, S. Romeis, W. Peukert

Roughness gradients on zirconia for rapid screening of cell-surface interactions: Fabrication, characterization and application

Q. Flamant, A.M. Stanciuc, H. Pavailler, C.M. Sprecher, M. Alini, M. Peroglio, M. Anglada

Tunable optical fiber pH sensors based on TE and TM Lossy Mode Resonances (LMRs)

P. Zubiate, C.R. Zamarreño, I. Del Villar, I.R. Matias, F.J. Arregui

Optical fiber resonance-based pH sensors using gold nanoparticles into polymeric layer-by-layer coatings

P.J. Rivero, J. Goicoechea, M. Hernaez, A.B. Socorro, I.R. Matías, F.J. Arregui

Single-mode—multimode—single-mode and lossy mode resonance-based devices: a comparative study for sensing applications 

A.B. Socorro, M. Hernaez, I.D. Villar, J.M. Corres, F.J. Arregui, I.R. Matias

Simultaneous measurement of humidity and temperature based on a partially coated optical fiber long period grating

A. Urrutia, J. Goicoechea, A.L. Ricchiuti, D. Barrera, S. Sales, F.J. Arregui

Tailored adhesion behavior of polyelectrolyte thin films deposited on plasma-treated poly(dimethylsiloxane) for functionalized membranes

J. Bassil, H. Alem, G. Henrion, D. Roizard

Sorption/release of diclofenac sodium in/from free-standing poly(acrylic acid)/poly(ethyleneimine) multilayer films

C-A Giorghita, F. Bucatariu, E.S. Dragan

An Optimized Method Based on Digitalized Lissajous Curve to Determine Lifetime of Luminescent Materials on Optical Fiber Sensors

A. Ridruejo, N. de Acha, C. Elosua, I.R. Matias, F.J. Arregui

From superhydrophilic to superhydrophobic surfaces by means of polymeric Layer-by-Layer films

D. Lopez-Torres, C. Elosua, M. Hernaez, J. Goicoechea, F.J. Arregui

Full solution processed mesostructured optical resonators integrating colloidal semiconductor quantum dots

M.E. Calvo, N. Hidalgo, R. Schierholz, A. Kovács, A. Fernández, M.G. Bellino, Galo J.A., A. Soler-Illia, H. Miguez 

A comparative study between SMS interferometers and lossy mode resonace optical fiber devices for sensing applications

A.B. Socorro, M. Hernaez, I.D. Villar, J.M. Corres, F.J. Arregui, I.R. Matias

Optical fiber pH sensor based on gold nanoparticles into polymeric coatings

A.B. Socorro, P.J. Rivero, M. Hernaez, J. Goicoechea, F.J. Arregui, I.R. Matias

Enzymatic Catalysis Combining the Breath Figures and Layer-by-Layer Techniques: Toward the Design of Microreactors. 

A. S. De León, T. Garnier, L. Jierry, F. Boulmedais, A. Muñoz-Bonilla, J. Rodríguez-Hernández

Synergic combination of the sol–gel method with dip coating for plasmonic devices

C. Figus, M. Patrini, F. Floris, L. Fornasari, P. Pellacani, G. Marchesini, A. Valsesia, F. Artizzu, D. Marongiu, M. Saba, F. Marabelli, A. Mura, G. Bongiovanni and F. Quochi

Fine Tuning the Emission Properties of Nanoemitters in Multilayered Structures by Deterministic Control of their Local Photonic Environment

A. Jimenez-Solano, J.F. Galisteo-López, H. Míguez

Preparation of Macroporous Epitaxial Quartz Films on Silicon by Chemical Solution Deposition

A. Carretero-Genevrier, M. Gich

Layer-by-Layer Assembly of a Water-insoluble Platinum Complex for Optical Fiber Oxygen Sensors

C. Elosua, N. de Acha, M. Hernaez, I.R. Matias, F.J. Arregui

A comparative study of two different approaches for the incorporation of silver nanoparticles into layer-by-layer films

P.J. Rivero, J. Goicoechea, I. R. Matías, F. J. Arregui 

Fiber optic ammonia sensor using Bromocresol Green pH indicator

A.J. Rodriguez, D.A. May-Arrioja, R.F. Domínguez, C.R. Zamarreño, I.R. Matias, F.J. Arregui

Optical Sensitivity Gain in Silica-Coated Plasmonic Nanostructures

F. Floris, C. Figus, L. Fornasari, M. Patrini, P. Pellacani, G. Marchesini, A. Valsesia, F. Artizzu, D. Marongiu, M. Saba, A. Mura, G. Bongiovanni, F. Marabelli, F. Quochi

Optical fiber refractometers based on localized surface plasmon resonance (LSPR) and lossy mode resonance (LMR)

P.J. Rivero, M. Hernaez, J. Goicoechea, I. R. Matías, F. J. Arregui 

D-shape optical fiber refractometer based on TM and TE lossy mode resonances

P. Zubiate, C.R. Zamarreño, I. Del Villar, I.R. Matias, F.J. Arregui

Improved Multifrequency Phase-Modulation Method That Uses Rectangular-Wave Signals to Increase Accuracy in Luminescence Spectroscopy

S. Medina-Rodriguez, A. de la Torre-Vega, F.J. Sainz-Gonzalo, M.M. Suarez, C. Elosua, F.J. Arregui, I.R. Matias, J. F. Fernandez-Sanchez, A. Fernández-Gutierrez

Sensitivity enhancement in a multimode interference-based SMS fibre structure coated with a thin-film: Theoretical and experimental study 

A.B. Socorro, I.D. Villar, J.M. Corres, F.J. Arregui, I.R. Matias

Luminescent Optical Fiber Oxygen Sensor following Layer-by-layer Method 

C. Elosua, N. de Acha, D. Lopez-Torres, I.R. Matias, F.J. Arregui

Comparative study of layer-by-layer deposition techniques for poly(sodium phosphate) and poly(allylamine hydrochloride) 

C. Elosua, D. Lopez-Torres, M. Hernaez, I.R. Matias, F.J. Arregui

Multicolor Layer-by-Layer films using weak polyelectrolyte assisted synthesis of silver nanoparticles 

P.J. Rivero, J. GoicoecheaA. Urrutia, I. R. Matías, F. J. Arregui 

A Lossy Mode Resonance optical sensor using silver nanoparticles-loaded films for monitoring human breathing.

Pedro J. Rivero, A. Urrutia, J. Goicoechea, I. R. Matías, F. J. Arregui

Fiber-optic biosensor based on lossy mode resonances

A.B. Socorro, J.M. Corres, I. Del Villar, F.J. Arregui, I.R. Matias

Optical fiber humidity sensors based on Localized Surface Plasmon Resonance (LSPR) and Lossy-mode resonance (LMR) in overlays loaded with silver nanoparticles.

Pedro J. Rivero, A. Urrutia, J. GoicoecheaF. J. Arregui

A novel luminescent optical fibre probe based on immobilized tridentate bis(phosphinic amide)-phosphine oxide for europium(III) ion aqueous detection in situ

F.J. Sainz-Gonzalo, C. Elosua, J.F. Fernandez-Sanchez, C. Popovici, I. Fernandez, F.L. Ortiz, F.J. Arregui, I.R. Matías, A. Fernandez-Gutierrez

Customers dip

Print
Category: Articles
Published Date
Written by Super User Hits: 434

Dip Coating Customers


 

Universidad de Cádiz

Università di Cagliari

Institute of Microelectronics of Barcelona IMB-CNM

Instituto de Ciencia de Materiales de Sevilla

Universitat Politècnica de Catalunya 

Schott AG

Lehrstuhl für Feststoff- und Grenzflächenverfahrenstechnik

Universidad Nacional Autónoma de México

ETH Zürich

Université Libre de Bruxelles

CEA Grenoble

Pontificia Universidad Católica Madre y Maestra

Université Toulouse III Paul Sabatier

Columbia University

Universidad Autónoma Metropolitana

Helmholtz-Zentrum Geesthacht

Hogänas

Université de Mons

Xeltis

Universidad del País Vasco

Universidad Pública de Navarra

Forschungszentrum Jülich

OphthaSWISS

Instituto Politécnico Nacional

Institut Charles Sadron

Universidad de Alicante

Université de Lorraine

EDF

CNEA

University of Limerick

University of Freiburg

CIEMAT

Humboldt-Universität zu Berlin

University of East Anglia

University of Stuttgart

Institut des Nanotechnologies de Lyon 

General Electric

Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)

Biomagune

Texas Tech University

Nanyang Technological University

University of Texas Rio Grande Valley

Imperial College London

Univesitat Jaume I

Università di Pisa

ENS Cachan

Université de Rouen Normandie

Ghent University

FAU Erlangen-Nürnberg

Universität Hamburg

Universidad de Cordoba

Cranfield University

Universidad Valencia

Universidad de Extremadura

Ecole Nationale Supérieure d'Ingénieurs de Caen

Universidade de Aveiro

AIMEN

Universidade do Sagrado Coração

Cambridge University

Universidad Valladolid

CEA Le Ripaulr

Montpellier 2 University

University of Oxford

Institute of Polymer Science and Technology

ESPCI Paris

Heidelberg University

BASF

Dip Coating

Print
Category: Articles
Published Date
Written by Super User Hits: 4010

Dip Coating


 

The ND dip coaters are intended for the fabrication and deposition of thin films on different surfaces by dip coating. The ND coaters are the ideal equipment for the fabrication of different types of homogeneous films: sol-gel, polymeric layers, multilayer structures, biofilms, antibodies or enzymes deposition, etc. The range of application is very extensive, including the fabrication of solar cells, electronic components, sensors, anti-reflection films, smart coatings, protective films or biocides films.


  

nd-dc-dip-coater

Rotary-Dip-Coater

  nd-2d-3d-dip-coater

                        ND-DC Dip Coater

 

                    ND-R Rotary Coater

 

 

             ND-2D & 3D Multi Axis Coater

 

 Applications

Spray Coating


 

 The ND coaters are intended for the fabrication and deposition of thin films on different surfaces by spray coating. The ND Spray coaters are characterized for its versatility and easiness of use. The range of application is very extensive, including the fabrication of solar cells, electronic components, sensors, anti-reflection films, smart coatings, protective films or biocides films.


 

nd-sp-mini-ultrasonic-spray-coater  

nd-sp-mini-ultrasonic-spray-coater-datasheet

  nd-sp-precision-spray coater

    ND-SP Mini Ultrasonic Spray Coater

    

       ND-SP Ultrasonic Spray Coater

  

         ND-SP Precision Spray Coater

 Applications

ND-SP Precision Spray Coater

Print
Category: Articles
Published Date
Written by Super User Hits: 11730

ND-SP Precision Spray Coater    


 

The Precision Spray Coater ND-SP is a system developed for the fabrication and deposition of thin films via spray. ND-SP has been designed with the objective to perform Spray Coating techniques, such as Layer-by-Layerl, which require small drop sizes. Thanks to its precision spray nozzle, the system is capable to develop drops with a diameter of 10 micrometers as well as spray high viscosity liquids. 

The dissolution is supplied through a syringe pump which offers high precision, versatility, inter-change and an easily used system. The systems could be configured with as many nozzles as the client desires.

nd-sp-spray-coater

nd-sp-spray-coater

The software, which is based on Windows®, is of easy management and allows programming any type of spray sequence depending on the size of the samples as well as the number of deposition samples.

 

 

nd-sp-spray-coater-datasheet

 


  

 


Related products

 

 nd-sp-ultrasonic-spray-coater   nd-sp-mini-ultrasonic-spray coater    nd-r-dip-coater-datasheet

 

 


 

contact

 

   

This company has received a grant which is 50% co-financed by the European Regional Development Fund through the ERDF 2007-2013 Programme in Navarre


 

© Nadetech Innovation S.L. | Terms & Conditions of Sale | Sitemap