SubsidieMeestersAn equipment for responsive adsorption assessment of dynamic adsorbents in liquid phase
DYNALIP aims to develop advanced on-line liquid phase adsorption technology to enhance measurement accuracy and promote the discovery of novel porous materials for selective liquid separation.
Projectdetails
Introduction
Liquid phase adsorption technology is crucial in industrial sectors focused on the separation, purification, or extraction of liquids or dissolved species such as petrochemical, water treatment, and pharmacologic industries. However, the characterization of the adsorption capacity of sorbents towards adsorptives in the liquid phase is still complex.
Challenges in Characterization
Commonly used procedures for liquid phase adsorption characterization are tedious, time-consuming, and manually done. This is mainly due to the lack of standardized procedures and the absence of specialized instrumentation to automatize the measurements.
Market Potential
Thus, the transfer of liquid phase adsorption methods to a wider market of laboratory instrumentation has significant market potential for SMEs and promotes materials discovery in industry. Dynamic (flexible) porous materials such as metal-organic frameworks are already recognized as highly selective adsorbents suitable to revolutionize separation technologies.
Need for Advanced Instrumentation
In order to completely unlock the potential of dynamic porous sorbents, industrial R&D departments, research institutes, and academic institutions require advanced instrumentation for assessing the liquid phase adsorption capacity of dynamic porous materials.
Project Goals
DYNALIP aims to develop a novel advanced on-line liquid phase adsorption technology to perform quantitative and exact liquid phase adsorption measurements.
Expected Outcomes
The successful project completion will allow the commercialization of an advanced device for laboratory use to promote the discovery and analysis of novel porous materials for highly selective liquid phase separation applications.
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 150.000 |
| Totale projectbegroting | € 150.000 |
Tijdlijn
| Startdatum | 1-7-2024 |
| Einddatum | 31-12-2025 |
| Subsidiejaar | 2024 |
Partners & Locaties
Projectpartners
- TECHNISCHE UNIVERSITAET DRESDENpenvoerder
Land(en)
Vergelijkbare projecten binnen European Research Council
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
Liquid Crystals in Flow: A New Era in Sensing and DiagnosticsThis project aims to develop highly sensitive, label-free liquid crystal-based microfluidic sensors by investigating the effects of soft interfaces and chemical heterogeneity on flow dynamics and optical properties. | ERC Starting... | € 1.500.000 | 2022 | Details |
Adaptive Separation using Dynamic Nanofibril NetworksThis project aims to develop tunable nanofibril networks for adaptive separation technologies, enhancing selectivity and throughput in pharmaceutical applications. | ERC Starting... | € 1.488.854 | 2025 | Details |
Designing green and energy-efficient anti-dewetting protocols for liquid chromatographyNODRY aims to create a simulation testbed to design HPLC protocols that mitigate dewetting in nanoporous materials, enabling environmentally friendly chromatography with pure water. | ERC Proof of... | € 150.000 | 2022 | Details |
Kinetic selectivity in molecular sieve sensorsKISSIES aims to develop a novel sensor technology using tailored metal-organic frameworks to selectively detect volatile organic compounds in complex environments, enhancing applications in health and safety. | ERC Consolid... | € 2.480.500 | 2022 | Details |
Lubricant-infused surfaces in sUrfactant- and Bacteria-laden turbulent FLOWsThis project aims to understand lubricant-infused surfaces in harsh flow environments to enhance their anti-fouling and drag-reduction properties for diverse technological applications. | ERC Consolid... | € 1.987.355 | 2023 | Details |
Liquid Crystals in Flow: A New Era in Sensing and Diagnostics
This project aims to develop highly sensitive, label-free liquid crystal-based microfluidic sensors by investigating the effects of soft interfaces and chemical heterogeneity on flow dynamics and optical properties.
Adaptive Separation using Dynamic Nanofibril Networks
This project aims to develop tunable nanofibril networks for adaptive separation technologies, enhancing selectivity and throughput in pharmaceutical applications.
Designing green and energy-efficient anti-dewetting protocols for liquid chromatography
NODRY aims to create a simulation testbed to design HPLC protocols that mitigate dewetting in nanoporous materials, enabling environmentally friendly chromatography with pure water.
Kinetic selectivity in molecular sieve sensors
KISSIES aims to develop a novel sensor technology using tailored metal-organic frameworks to selectively detect volatile organic compounds in complex environments, enhancing applications in health and safety.
Lubricant-infused surfaces in sUrfactant- and Bacteria-laden turbulent FLOWs
This project aims to understand lubricant-infused surfaces in harsh flow environments to enhance their anti-fouling and drag-reduction properties for diverse technological applications.
Vergelijkbare projecten uit andere regelingen
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
Gas-oppervlakte interactiesimulatie in industriële optica, waterstof en adsorptie van giftige gassenDit project onderzoekt de haalbaarheid van gasadsorptie in poreuze materialen voor CO2, waterstof en giftige gassen via simulatiemodellen. | Mkb-innovati... | € 20.000 | 2023 | Details |
Gas-oppervlakte interactiesimulatie in industriële optica, waterstof en adsorptie van giftige gassenDit project onderzoekt de technische en economische haalbaarheid van gasafvang met poreuze materialen voor CO2 en andere gassen via simulaties en modellering, gericht op industriële toepassingen. | Mkb-innovati... | € 20.000 | 2023 | Details |
Automatische DruppeltesterHet project ontwikkelt een compacte automatische druppeltester voor ter plaatse metingen van vloeistofabsorptie op materialen, met focus op marktbehoefte en financiële haalbaarheid. | Mkb-innovati... | € 20.000 | 2020 | Details |
Zelfreinigende, hoge-temperatuur gaschromatograaf-inlet voor de analyse van zware (bio-)compoundsJoint Analytical Systems B.V. onderzoekt de haalbaarheid van een zelfreinigende gaschromatograaf-inlet om zware biofracties te analyseren, wat laboratoria efficiënter en duurzamer maakt. | Mkb-innovati... | € 20.000 | 2021 | Details |
BIOmimetic selective extraction MEMbranesBIOMEM aims to create energy-efficient biomimetic membranes using biological transport proteins for selective extraction of valuable compounds and pollutants from water. | EIC Pathfinder | € 2.119.133 | 2024 | Details |
Gas-oppervlakte interactiesimulatie in industriële optica, waterstof en adsorptie van giftige gassen
Dit project onderzoekt de haalbaarheid van gasadsorptie in poreuze materialen voor CO2, waterstof en giftige gassen via simulatiemodellen.
Gas-oppervlakte interactiesimulatie in industriële optica, waterstof en adsorptie van giftige gassen
Dit project onderzoekt de technische en economische haalbaarheid van gasafvang met poreuze materialen voor CO2 en andere gassen via simulaties en modellering, gericht op industriële toepassingen.
Automatische Druppeltester
Het project ontwikkelt een compacte automatische druppeltester voor ter plaatse metingen van vloeistofabsorptie op materialen, met focus op marktbehoefte en financiële haalbaarheid.
Zelfreinigende, hoge-temperatuur gaschromatograaf-inlet voor de analyse van zware (bio-)compounds
Joint Analytical Systems B.V. onderzoekt de haalbaarheid van een zelfreinigende gaschromatograaf-inlet om zware biofracties te analyseren, wat laboratoria efficiënter en duurzamer maakt.
BIOmimetic selective extraction MEMbranes
BIOMEM aims to create energy-efficient biomimetic membranes using biological transport proteins for selective extraction of valuable compounds and pollutants from water.