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Vogt, Yngve; Krauss, Stefan Johannes Karl; Mossige, Joachim; Dysthe, Dag Kristian; Angheluta, Luiza & Jensenius, Alexander Refsum
(2023).
Bereder grunnen for kunstige organer.
[Fagblad].
Apollon.
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Dziadkowiec, Joanna; Zareeipolgardani, Bahareh; Cheng, Hsiu-Wei; Dysthe, Dag Kristian; Røyne, Anja & Valtiner, Markus
(2021).
Forces between reactive surfaces.
Vis sammendrag
Adhesive and repulsive, nm-range surface forces acting between mineral grains control colloidal stability and mineral aggregation but less is known about how these forces are affected by surface reactivity and to what extent these grain-scale forces can influence various deformation processes in rocks. In this experimental work, we explore and quantify the surface forces acting between dynamic mineral surfaces that undergo recrystallization or are chemically reactive in contact with water or aqueous salt solutions. Our experimental setup consists of the surface forces apparatus (SFA) coupled with the multiple beam interferometry (MBI). This setup can excellently reproduce a typical grain contact geometry with nanometer-thin water films confined between contacting mineral grains over relatively large, micron-sized contact areas. Owing to the use of MBI, both surface growth or dissolution processes can be monitored during force measurements in real-time. As such, SFA can provide information about the links between surface reactivity and adhesive or repulsive surface forces. Using the examples of force measurements between recrystallizing or chemically reactive mineral surfaces such as carbonates, hydroxides, and silicates, we comment on the relationship between the measured surface forces and surface reactivity. We link our findings with the observed changes in mineral phases, surface topographies, or surface roughness. We also comment on how the micron-scale confinement in the SFA affects the growth and dissolution processes in contrast to less confined regions. The magnitude of the forces associated with dynamic mineral surfaces and the potential significance of these forces to macroscopic deformation processes and cohesion in rocks are discussed.
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Dysthe, Dag Kristian
(2019).
Simultaneous measurement of intracellular actin
dynamics and strain field of the extracellular matrix.
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Dysthe, Dag Kristian
(2019).
Molecular layer resolution of crystal growth in nanoconfinement.
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Dysthe, Dag Kristian
(2019).
Simultaneous measurement of intracellular actin dynamics and strain field of the extracellular matrix .
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Dysthe, Dag Kristian
(2019).
Atomic scale view of crystallization in confinement
Nucleation, step flow and transport limitation.
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Dysthe, Dag Kristian
(2019).
Calcium carbonate (re-)crystallization questions.
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Dysthe, Dag Kristian
(2019).
Crystal growth in nanoconfinement.
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Dysthe, Dag Kristian
(2019).
Crystal growth in nanoconfinement.
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Dysthe, Dag Kristian
(2019).
Molecular layer resolution of crystal growth in nanoconfinement.
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Dziadkowiec, Joanna; Zareeipolgardani, Bahareh; Bratvold, Jon E.; Nilsen, Ola; Dysthe, Dag Kristian & Røyne, Anja
(2019).
Long-range repulsive forces between reactive calcite surfaces are generated due to nucleation in a confined solution.
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de Ruiter, Lisa; Austrheim, Håkon Olaf; Dysthe, Dag Kristian & Gunnæs, Anette Eleonora
(2018).
Quartz weathering associated with magnesium silicate hydrate cement precipitation.
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de Ruiter, Lisa; Austrheim, Håkon Olaf; Gunnæs, Anette Eleonora & Dysthe, Dag Kristian
(2018).
Quartz dissolution and M-S-H cement precipitation in a high pH ultramafic system.
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Sanchez, Jesus Rodriguez; Liberto, Teresa; Zhang, Qing; Barentine, Catherine & Dysthe, Dag Kristian
(2017).
Lab meeting: Rheological and long-term indentation creep properties of calcium carbonate cements
.
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Sanchez, Jesus Rodriguez; Liberto, Teresa; Zhang, Qing; Barentine, Catherine & Dysthe, Dag Kristian
(2017).
Rheological and long-term indentation creep properties of calcium carbonate cements
.
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Ruiter, Lisa De; Austrheim, Håkon Olav & Dysthe, Dag Kristian
(2017).
Formation of magnesium silicate hydrate cement in the weathering zone of ultramafites.
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Sanchez, Jesus Rodriguez; Myszka, Barbara; Dysthe, Dag Kristian & Boccaccini, Aldo
(2017).
Biomineralization study of calcium carbonate cements.
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Neuville, Amélie; Renaud, Louis; Minde, Mona Wetrhus; Vinningland, Jan Ludvig; Hiorth, Aksel & Dysthe, Dag Kristian
(2017).
Can we get a better knowledge on dissolution processes in chalk by using microfluidic chips?
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Ruiter, Lisa De; Austrheim, Håkon Olav & Dysthe, Dag Kristian
(2017).
Formation of magnesium silicate hydrate cement during lithification of ultramafic-rich glacial deposits.
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Sanchez, Jesus Rodriguez; Cordonnier, Benoit; Renard, Francois & Dysthe, Dag Kristian
(2016).
Transition between brittle and ductile behaviour on carbonate rocks: an X-ray tomographic analysis
.
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Neuville, Amélie; Renaud, Louis; Luu, Thi Thuy; Jettestuen, Espen; Vinningland, Jan Ludvig & Hiorth, Aksel
[Vis alle 7 forfattere av denne artikkelen]
(2016).
Can we get more knowledge on solid dissolution processes using microfluidic chips?
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Neuville, Amélie; Luu, Thi Thuy & Dysthe, Dag Kristian
(2016).
Chalk-calcite-microfluidic experiments: construction and flooding of microsystems with reactive fluids.
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Neuville, Amélie & Dysthe, Dag Kristian
(2016).
JCR meeting for the Pore2Core project, experimental part.
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Ruiter, Lisa De; Austrheim, Håkon Olav & Dysthe, Dag Kristian
(2016).
The lithification of ultramafic dominated till with magnesium silicate hydrate: a new green concrete.
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Sanchez, Jesus Rodriguez & Dysthe, Dag Kristian
(2016).
A tour around research in the Depart. of Physics. First stop" NanoHeal: Nano-tailoring organo-mineral materials"
.
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Sanchez, Jesus Rodriguez & Dysthe, Dag Kristian
(2016).
Synthesis of calcium carbonate particles via continuous flow microfluidics
.
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Neuville, Amelie; Renaud, Louis; Luu, Thi Thuy; Vinningland, Jan Ludvig; Jettestuen, Espen & Dysthe, Dag Kristian
[Vis alle 7 forfattere av denne artikkelen]
(2016).
Xurography for microfluidics in reactive systems: the example of the calcite dissolution.
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Høgberget, Jørgen; Kohler, Felix; Røyne, Anja; Jettestuen, Espen & Dysthe, Dag Kristian
(2016).
Combining in situ Interferometry and Kinetic Monte Carlo to Study Mechanisms of Nanoconfined Crystallization.
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Dysthe, Dag Kristian; Vinningland, Jan Ludvig & Neuville, Amélie
(2015).
Microfluidic tools for reactive transport in porous media.
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Dysthe, Dag Kristian; Neuville, Amélie; Luu, Thi Thuy; Kohler, Felix & Li, Lei
(2015).
Microfluidic Tools for Reactive Transport In Porous
Media.
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Keszthelyi, Dániel; Dysthe, Dag Kristian & Jamtveit, Bjørn
(2015).
The mysterious subsidence of the seafloor due to oil production – How to predict it with a simple model?
EGU Blogs.
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Keszthelyi, Dániel; Jamtveit, Bjørn & Dysthe, Dag Kristian
(2015).
Compaction creep of carbonate rocks.
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Keszthelyi, Dániel; Dysthe, Dag Kristian & Jamtveit, Bjørn
(2015).
Compaction of North Sea Chalk - A new micromechanical mechanism of pore collapse and a statistical mechanical upscaling to predict Ekofisk subsidence.
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Keszthelyi, Dániel; Dysthe, Dag Kristian & Jamtveit, Bjørn
(2015).
A simple model of compaction in carbonates.
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Keszthelyi, Dániel; Dysthe, Dag Kristian & Jamtveit, Bjørn
(2015).
Model of compaction in carbonates.
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Keszthelyi, Dániel; Dysthe, Dag Kristian & Jamtveit, Bjørn
(2015).
Compaction of the Ekofisk oil reservoir - On small- and on large-scale.
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Keszthelyi, Dániel; Dysthe, Dag Kristian & Jamtveit, Bjørn
(2015).
Compaction of North-sea chalk by pore-failure and pressure solution.
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Keszthelyi, Dániel; Jamtveit, Bjørn & Dysthe, Dag Kristian
(2015).
A model of compaction creep in carbonates.
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Keszthelyi, Dániel; Jamtveit, Bjørn & Dysthe, Dag Kristian
(2015).
Compaction creep by pore failure and pressure solution applied to a carbonate reservoir.
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Høgberget, Jørgen; Røyne, Anja; Dysthe, Dag Kristian & Jettestuen, Espen
(2015).
Confined Crystal Growth and Dissolution.
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Skattum, Sigve Bøe; Bergsaker, Anne Schad & Dysthe, Dag Kristian
(2015).
CO2 Storage in North Sea Chalk Fields.
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Kohler, Felix & Dysthe, Dag Kristian
(2015).
Nanoconfined Crystal Growth investigated by Reflection Interference Contrast Microscopy.
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Dysthe, Dag Kristian & Austrheim, Håkon Olav
(2015).
Beyond research based teaching: Teaching interdisciplinary research and pushing students beyond their training.
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Dysthe, Dag Kristian & Austrheim, Håkon Olav
(2015).
Beyond research based teaching: Teaching interdisciplinary research and pushing students beyond their training.
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Dysthe, Dag Kristian
(2015).
CO2 for EOR and storage in North sea chalk fields?
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Neuville, Amélie; Vinningland, Jan Ludvig; Luu, Thi Thuy; Jettestuen, Espen; Dysthe, Dag Kristian & Hiorth, Aksel
(2015).
Chalk-calcite-microfluidic experiments: construction and flooding of microsystems with reactive fluids, oral presentation.
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Neuville, Amelie; Vinningland, Jan Ludvig; Luu, Thi Thuy; Jettestuen, Espen; Dysthe, Dag Kristian & Hiorth, Aksel
(2015).
Microfluidic experiments: construction and flooding of microsystems with reactive fluids.
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Neuville, Amélie; Vinningland, Jan Ludvig; Luu, Thi Thuy; Jettestuen, Espen; Dysthe, Dag Kristian & Hiorth, Aksel
(2015).
Chalk-calcite-microfluidic experiments: construction and flooding of microsystems with reactive fluids.
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Keszthelyi, Dániel; Dysthe, Dag Kristian & Jamtveit, Bjørn
(2014).
Compaction of a producing reservoir.
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Keszthelyi, Dániel; Dysthe, Dag Kristian & Jamtveit, Bjørn
(2014).
Compaction of the Ekofisk oil reservoir - On small- and on large-scale.
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Keszthelyi, Dániel; Jamtveit, Bjørn & Dysthe, Dag Kristian
(2014).
Compaction of North-sea chalk.
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Høgberget, Jørgen; Røyne, Anja; Malthe-Sørenssen, Anders; Dysthe, Dag Kristian & Jettestuen, Espen
(2014).
Nanoconfined Crystal Growth and Dissolution.
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Dysthe, Dag Kristian
(2014).
The different roles of experiments.
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Dysthe, Dag Kristian; Kobchenko, Maya; Hafver, Andreas; Panahi, Hamed; Jamtveit, Bjørn & Renard, Francois Marie Paul L
(2014).
Temporal and spatial characteristics of drainage fracture networks in elastic media with internal fluid generation.
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Dysthe, Dag Kristian
(2014).
A naïve model of rough contacts.
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Dysthe, Dag Kristian
(2014).
Microfluidic experiments - real time reactions.
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Dysthe, Dag Kristian & Read, Alexander Lincoln
(2014).
Beregninger i kurset FYS2150 "Eksperimentell fysikk".
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Dysthe, Dag Kristian; Hiorth, Aksel; Neuville, Amélie; Vinningland, Jan Ludvig; Jettestuen, Espen & Skartlien, Roar
(2014).
Reactive flow during water flooding -from pore2core.
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Neuville, Amélie; Dysthe, Dag Kristian & Hiorth, Aksel
(2014).
Flooding microsystems with reactive fluids Calcite-Chalk-microfluidic.
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Neuville, Amélie; Dysthe, Dag Kristian; Hiorth, Aksel & Li, Lei
(2014).
Flooding microsystems with reactive fluids Calcite-Chalk microfluidic.
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Neuville, Amelie; Dysthe, Dag Kristian; Li, Lei & Hiorth, Aksel
(2014).
Flooding microsystems with reactive fluids Calcite-Chalk-microfluidic.
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Bergsaker, Anne Schad; Neuville, Amélie; Røyne, Anja & Dysthe, Dag Kristian
(2014).
MICRODEFORMATION EXPERIMENTS ON CHALK - FLUIDS, FRACTURE AND CREEP.
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Vinningland, Jan Ludvig; Neuville, Amelie; Pedersen, Janne; Jettestuen, Espen; Dysthe, Dag Kristian & Hiorth, Aksel
(2014).
Reactive flow simulations: one-to-one comparison with experiments.
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Neuville, Amélie; Dysthe, Dag Kristian; Li, Lei & Hiorth, Aksel
(2013).
Reactive flow during flooding From pore to core.
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Neuville, Amélie; Vinningland, Jan Ludvig; Luu, Thi Thuy; Dysthe, Dag Kristian; Jettestuen, Espen & Hiorth, Aksel
(2015).
Reactive flow during water flooding – from pore to core Half-year progress report 2015.
JCR.
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Neuville, Amélie; Vinningland, Jan Ludvig; Jettestuen, Espen; Skartlien, Roar; Dysthe, Dag Kristian & Hiorth, Aksel
(2014).
JCR-7 Symposium 2014 Transaction - Reactive flow during water flooding – from pore2core.
Join Chalk Research.
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Hiorth, Aksel; Dysthe, Dag Kristian; Neuville, Amélie; Vinningland, Jan Ludvig & Jettestuen, Espen
(2014).
Reactive flow during water flooding – from pore to core, Quartely report 2, 2014.
Join Chalk Research.
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Hiorth, Aksel; Dysthe, Dag Kristian; Neuville, Amélie; Vinningland, Jan Ludvig & Li, Lei
(2013).
JCR-7 - Project Status Report n°1.
Join Chalk Research.