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| Naji, M. |
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| Motta, Antonella |
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| Aletan, Dirar |
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| Mohamed, Tarek |
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| Ertürk, Emre |
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| Taccardi, Nicola |
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| Kononenko, Denys |
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| Petrov, R. H. | Madrid |
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| Alshaaer, Mazen | Brussels |
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| Bih, L. |
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| Casati, R. |
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| Muller, Hermance |
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| Kočí, Jan | Prague |
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| Šuljagić, Marija |
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| Kalteremidou, Kalliopi-Artemi | Brussels |
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| Azam, Siraj |
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| Ospanova, Alyiya |
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| Blanpain, Bart |
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| Ali, M. A. |
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| Popa, V. |
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| Rančić, M. |
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| Ollier, Nadège |
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| Azevedo, Nuno Monteiro |
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| Landes, Michael |
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| Rignanese, Gian-Marco |
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Keller, Stephan Urs
Technical University of Denmark
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (34/34 displayed)
- 2024In-situ mineralization of biomass-derived hydrogels boosts capacitive electrochemical energy storage in free-standing 3D carbon aerogelscitations
- 2022Stereolithography-Derived Three-Dimensional Pyrolytic Carbon/Mn3O4 Nanostructures for Free-Standing Hybrid Supercapacitor Electrodescitations
- 2022Selective Passivation of Three-Dimensional Carbon Microelectrodes by Polydopamine Electrodeposition and Local Laser Ablationcitations
- 2021Hot punching for loading of biodegradable microcontainers with budesonide-Soluplus filmcitations
- 2021Suspended highly 3D interdigitated carbon microelectrodescitations
- 2020Highly structured 3D pyrolytic carbon electrodes derived from additive manufacturing technologycitations
- 2019Where Is the Drug? Quantitative 3D Distribution Analyses of Confined Drug-Loaded Polymer Matricescitations
- 2019Pyrolytic carbon resonators for micromechanical thermal analysiscitations
- 2019Wafer-Scale Polymer-Based Transparent Nanocorals with Excellent Nanoplasmonic Photothermal Stability for High-Power and Superfast SERS Imagingcitations
- 2017Suspended 3D pyrolytic carbon microelectrodes for electrochemistrycitations
- 2017Suspended microstructures of epoxy based photoresists fabricated with UV photolithographycitations
- 2017High temperature SU-8 pyrolysis for fabrication of carbon electrodescitations
- 2016Bioengineering of Solution Processed Graphene for the Development of Ultrasensitive Flexible Biosensing Platform
- 2016Pyrolytic 3D Carbon Microelectrodes for Electrochemistry
- 2016Microcontainers for Intestinal Drug Delivery
- 2016Pyrolytic carbon microelectrodes for impedance based cell sensingcitations
- 2016Supercritical impregnation of polymer matrices spatially confined in microcontainers for oral drug delivery: Effect of temperature, pressure and timecitations
- 2016Synthesis and characterization of UV photocrosslinkable hydrogels with poly(N-vinyl-2-pyrrolidone): Determination of the network mesh size distributioncitations
- 2015Fabrication of Ni stamp with high aspect ratio, two-leveled, cylindrical microstructures using dry etching and electroplatingcitations
- 2015Microcantilever sensors for fast analysis of enzymatic degradation of poly (D, L-lactide)citations
- 2015Fabrication and loading of oral drug delivery microcontainers using hot punching
- 2015Hot punching of high-aspect-ratio 3D polymeric microstructures for drug deliverycitations
- 2014Physical characterization of photocrosslinked poly(vinyl pyrrolidone) (PVP) hydrogels for drug delivery
- 2014Micromechanical String Resonators: Analytical Tool for Thermal Characterization of Polymerscitations
- 2013Spray coating of microcontainers with eudragit using ferromagnetic shadow masks for controlled oral release of poorly water soluble drugs.
- 2013Sensitive determination of the Young's modulus of thin films by polymeric microcantileverscitations
- 2013Biodegradable microcontainers as an oral drug delivery system for poorly soluble drugs.
- 2013Ferromagnetic shadow mask for spray coating of polymer patternscitations
- 2013Process optimization of ultrasonic spray coating of polymer filmscitations
- 2012Process Optimization for Spray Coating of Poly (vinyl pyrrolidone)
- 2011Biodegradable micromechanical sensors
- 2011Fabrication and characterization of SRN/SU-8 bimorph cantilevers for temperature sensingcitations
- 2010Double layer resist process scheme for metal lift-off with application in inductive heating of microstructurescitations
- 2008Optimized plasma-deposited fluorocarbon coating for dry release and passivation of thin SU-8 cantileverscitations
Places of action
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conferencepaper
Process Optimization for Spray Coating of Poly (vinyl pyrrolidone)
Abstract
Poly(vinyl pyrrolidone) (PVP) is an important synthetic polymer which has a wide variety of applications in the biomedical field because of its film forming properties including adhesion, excellent physiological compatibility, low toxicity, and reasonable solubility in water and most organic solvents [1]. Recently some studies have been published [2, 3] using micromechanical sensors to characterize thin polymer coatings under various conditions. With the final aim to deposit thin PVP film on cantilevers we studied the process optimization of PVP by spray coating on microscope glass slides. Here, we present a study of the parameters determining the quality of the deposited film. Spray Coating was done in an Exacta Coat Ultrasonic Spraying System (Sonotek, USA) .The main components are illustrated in fig. 1. The tip of the ultrasonic atomizer nozzle was actuated at a frequency of 120 kHz. Nitrogen gas was connected to the inlet of the air focusing shroud. The nitrogen pressure was monitored by a pressure sensor and regulated by a valve. The gas flow and the position of the air focusing shroud allowed the control of the diameter and shape of the spray-coating beam. The movement of the nozzle was controlled by an x-y-z stage. A shadow mask was put on a glass slide before deposition to cover some area from spraying. The masked areas acted as a baseline for characterizing the final coating by a surface profilometer (Veeco Dektak8) from where the thickness and roughness value were calculated as shown schematically in fig. 2. The surface texture was observed with an Optical Microscope (Zeiss). A 0.5 wt. % solution of PVP in water was prepared and introduced in the central column of the nozzle using a syringe pump. Each slide was coated 10times with a flow rate of 0.1ml/min and nitrogen pressure of 0.03Bar which was kept constant for all the experiments. The parameters varied are speed of the moving nozzle while spraying (nozzle path shown schematically in fig.2), temperature of the substrate and distance between nozzle and substrate. Surface morphology of the films is governed mainly by the rate of drying of the spray on the substrate. The depositions can be broadly classified into a dry state, a wet state and an optimized condition in between. The profilometer scan in fig. 3 and the microscope images in fig.4 show the surface for a distance between the nozzle and the substrate of (a) 100mm, (b) 70mm and (c) 90mm respectively. The further the nozzle is away from the substrate the faster the deposited polymer film dries. Spraying with a distance of 100mm gives rise to the dry state (fig. 3a) with avg. roughness (Ra) 158nm. When the distance between nozzle and substrate decreases to 70mm i.e., at the wet state, Ra reduces to 22nm. The disadvantage of the wet condition is that as the polymer remains wet for a longer time it accumulates at the edge of the deposition to form peaks of few microns in height (fig.3b). The optimized condition (fig.3c) lies in between at a distance of 90mm where we get a compromise between the dry and the wet state where Ra is 76nm but there are no edge peaks as shown before. With an increase in temperature (fig. 5a, b and c) the deposition moves from the wet to dry state were roughness increases due to rapid drying of the sprayed drops. Same dry state is observed for coating with an aqueous solution at 60°C (fig.5c) and when a low boiling solvent like dichloromethane (fig. 5d) is used for deposition at room temperature. The speed of the spraying nozzle influences both the final thickness and roughness of the film. The roughness becomes significant when the nozzle is very fast and the amount of polymer sprayed is not enough to coalesce and form a continuous film. This study shows the inter-correlation of different parameters for uniform film formation by spray coating. The findings will be used for coating of cantilevers and for studies of material characteristics of thin polymer films used for example drug delivery.