| 1. |
- Saini, Apurve, et al.
(författare)
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Electrical Sensing in a Magnetic Liquid
- 2019
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Ingår i: IEEE Sensors Journal. - : IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC. - 1530-437X .- 1558-1748. ; 19:16, s. 6948-6955
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Tidskriftsartikel (refereegranskat)abstract
- We have investigated the electrical current transmission characteristics of a magnetic field controlled self-assembled percolated structure of conducting colloid particles. The colloidal liquid contains conducting magnetic and non-magnetic microbeads suspended in an oil-based ferrofluid. The applied in-plane magnetic field is able to precisely control the current transmission. Optical transmission microscopy reveals the local ordering in the liquid with the microparticles forming percolating chains through which the current is transmitted.
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| 2. |
- Saini, Apurve, et al.
(författare)
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Layering of magnetic nanoparticles at amorphous magnetic templates with perpendicular anisotropy
- 2020
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Ingår i: Soft Matter. - : Royal Society of Chemistry (RSC). - 1744-683X .- 1744-6848. ; 16:33, s. 7676-7684
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Tidskriftsartikel (refereegranskat)abstract
- We reveal the assembly of magnetite nanoparticles of sizes 5 nm, 15 nm and 25 nm from dilute water-based ferrofluids onto an amorphous magnetic template with out-of-plane anisotropy. From neutron reflectometry experiments we extract density profiles and show that the particles self-assemble into layers at the magnetic surface. The layers are extremely stable against cleaning and rinsing of the substrate. The density of the layers is determined by and increases with the remanent magnetic moment of the particles.
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| 3. |
- Saini, Apurve, et al.
(författare)
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Macroscopic Alignment of Micellar Crystals with Magnetic Microshearing
- 2019
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Ingår i: Langmuir. - : AMER CHEMICAL SOC. - 0743-7463 .- 1520-5827. ; 35:11, s. 3980-3986
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Tidskriftsartikel (refereegranskat)abstract
- The effect of small quantities of a magnetic polymer nanocomposite (formed by surfactant Pluronic @ F127 Fe3O4 nanoparticles of 10 and 30 nm diameters) on the crystallization behavior of Pluronic F127 micelles solvated by 20% in water was investigated in the vicinity of hydrophilic and hydrophobic interfaces. Introducing magnetic nanoparticle at the core imparts magnetic properties to the polymeric micelle and increases its hydrodynamic diameter. These magnetic polymer nanocomposites act as defects in the pluronic crystal and hinder crystallization in comparison to pure Pluronic F127 micelles' behavior. The magnetic field results in a motion of the magnetic micelles and a microshearing effect. This microshearing assists in self-organization of the crystal. Addition of magnetic micelles formed using 30 nm magnetite particles shows similar crystallization behavior, however, with an overall reduced crystallinity due to their significantly larger size compared to the lattice parameter and the dimension of the interstitial cavity for an fcc structure.
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| 4. |
- Saini, Apurve, et al.
(författare)
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Magnetic particle self-assembly at functionalized interfaces
- 2021
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Ingår i: Langmuir. - : American Chemical Society (ACS). - 0743-7463 .- 1520-5827. ; 37:14, s. 4064-4071
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Tidskriftsartikel (refereegranskat)abstract
- We study the assembly of magnetite nanoparticles in water-based ferrofluids in wetting layers close to silicon substrates with different functionalization without and with an out-of-plane magnetic field. For particles of nominal sizes 5, 15, and 25 nm, we extract density profiles from neutron reflectivity measurements. We show that self-assembly is only promoted by a magnetic field if a seed layer is formed at the silicon substrate. Such a layer can be formed by chemisorption of activated N-hydroxysuccinimide ester-coated nanoparticles at a (3-aminopropyl)triethoxysilane functionalized surface. Less dense packing is reported for physisorption of the same particles at a piranha-treated (strongly hydrophilic) silicon wafer, and no wetting layer is found for a self-assembled monolayer of octadecyltrichlorosilane (strongly hydrophobic) at the interface. We show that once the seed layer is formed and under an out-of-plane magnetic field further wetting layers assemble. These layers become denser with time, larger magnetic fields, higher particle concentrations, and larger moment of the nanoparticles.
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| 5. |
- Saini, Apurve, et al.
(författare)
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Magnetically Controlled Electrical Current Through a Colloid
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Annan publikation (övrigt vetenskapligt/konstnärligt)abstract
- We demonstrate current transmission through a colloid optimized with both conducting and magnetic properties. The current can be controlled precisely by applying a magnetic field and can be switched. The phenomena depend on a collective and simultaneous control of a microscopic entities. Here, we report on measurements of conductivity of such a colloidal liquid and the viability of developing a working contact. The contact is scalable and might be capable of offering lower loss current conduction (for low or medium voltage applications) compared to contemporary mechanical connections and may solve challenges such as oxidation, mechanical wear, contact welding etc.
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| 6. |
- Saini, Apurve
(författare)
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Magnetically governed self-assembly of soft matter : A look into interfacial layering, crystallization and percolation
- 2020
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Self-organisation is the key route for assembling colloidal particles into well-defined structures. Decisive for this are the interactions between the constituents, which are amongst others steric, electrostatic or magnetic. A deep knowledge on the underlying physical processes during self-assembly is crucial for the design and fabrication of well-defined hierarchical architectures from a nanometer scale as well as for realizing smart, functional or stimuli responsive synthetic materials. In this dissertation, the self-assembly of colloidal magnetic particles into organized and multi-layered structures is studied. Particular emphasis is given to solid-liquid boundaries and the response to applied magnetic fields. Particle coatings with specific functional molecules stabilize the nanoparticles (NPs) in the solvent and can simultaneously promote their assembly at a substrate. An example in this context is N-hydroxysuccinimide interacting with (3-aminopropyl)triethoxy silane at the substrate. As a result of this chemical affinity, uniform and densely packed particle wetting layers are seeded which then instate the layering process. As an alternative to chemical binding, the magnetic stray field of a ferrimagnetic (Tb15Co85 film) deposited on a substrate induces particle self-assembly with dense layers as well. The application of an external magnetic field further promotes densification, particle layering and leads to variations in the assembly characteristics such as quasi-domain formation of closely packed layers. At an interface with a magnetic field applied in the plane of the interface, Brownian motion and Neel relaxation of the NPs are decisive for the layering and give raise to these domains. For a magnetic field oriented along the surface normal similar structural layering but denser packing is found. The self-assembly is a relatively slow process and evolves over hours and is maximized, most ordered and dense for superparamagnetic NPs which are single domain and having a large remanent moment and reduced thermal mobility. Small quantities of magnetic micelles in a hybrid magnetic polymer nanocomposite, facilitate the crystallization of Pluronic F127 micelles dissolved in water into single crystalline structures via a micro-shear effect under applied magnetic field. Also, a magnetic field applied to a colloidal dispersion of conducting magnetic and non-magnetic polystyrene microbeads suspended in an oil-based ferrofluid can lead to percolated structures. This allows current transmission and switching. A working contact for possible applications in automotive, switchboard and telecommunications is demonstrated.
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| 7. |
- Theis-Broehl, Katharina, et al.
(författare)
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Self-assembly of Magnetic Nanoparticles in Ferrofluids on Different Templates by Neutron Reflectometry
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Annan publikation (övrigt vetenskapligt/konstnärligt)abstract
- This article reviews the self-assembly of magnetite nanoparticles onto solid surfaces. We focus on neutron reflectometry studies providing information on the density and magnetization profiles of buried interfaces. Specific attention is given to the near-interface wetting layer and to examples of magnetite nanoparticles on a hydrophilic silicon crystal, one coated with (3-Aminopropyl)triethoxysilan, and finally one with a magnetic film with out-of-plane magnetization.
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| 8. |
- Theis-Broehl, Katharina, et al.
(författare)
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Self-Assembly of Magnetic Nanoparticles in Ferrofluids on Different Templates Investigated by Neutron Reflectometry
- 2020
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Ingår i: Nanomaterials. - : MDPI AG. - 2079-4991. ; 10:6
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Forskningsöversikt (refereegranskat)abstract
- In this article we review the process by which magnetite nanoparticles self-assemble onto solid surfaces. The focus is on neutron reflectometry studies providing information on the density and magnetization depth profiles of buried interfaces. Specific attention is given to the near-interface "wetting" layer and to examples of magnetite nanoparticles on a hydrophilic silicon crystal, one coated with (3-Aminopropyl)triethoxysilane, and finally, one with a magnetic film with out-of-plane magnetization.
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| 9. |
- Theis-Bröhl, Katharina, et al.
(författare)
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Self-Assembled Layering of Magnetic Nanoparticles in a Ferrofluid on Silicon Surfaces
- 2018
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Ingår i: ACS Applied Materials and Interfaces. - : AMER CHEMICAL SOC. - 1944-8244 .- 1944-8252. ; 10:5, s. 5050-5060
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Tidskriftsartikel (refereegranskat)abstract
- This article describes the three-dimensional self assembly of monodisperse colloidal magnetite nanoparticles (NPs) from a dilute water-based ferrofluid onto a silicon surface and the dependence of the resultant magnetic structure on the applied field. The NPs assemble into close-packed layers on the surface followed by more loosely packed ones. The magnetic field-dependent magnetization of the individual NP layers depends on both the rotational freedom of the layer and the magnetization of the adjacent layers. For layers in which the NPs are more free to rotate, the easy axis of the NP can readily orient along the field direction. In more dense packing, free rotation of the NPs is hampered, and the NP ensembles likely build up quasi-domain states to minimize energy, which leads to lower magnetization in those layers. Detailed analysis of polarized neutron reflectometry data together with model calculations of the arrangement of the NPs within the layers and input from small-angle scattering measurements provide full characterization of the core/shell NP dimensions, degree of chaining, arrangement of the NPs within the different layers, and magnetization depth profile.
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| 10. |
- Wolff, Max, et al.
(författare)
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Time Resolved Polarised Grazing Incidence Neutron Scattering from Composite Materials
- 2019
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Ingår i: Polymers. - : MDPI. - 2073-4360. ; 11:3
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Tidskriftsartikel (refereegranskat)abstract
- Neutron scattering experiments are a unique tool in material science due to their sensitivity to light elements and magnetic induction. However, for kinetic studies the low brilliance at existing sources poses challenges. In the case of periodic excitations these challenges can be overcome by binning the scattering signal according to the excitation state of the sample. To advance into this direction we have performed polarised and time resolved grazing incidence neutron scattering measurements on an aqueous solution of the polymer F127 mixed with magnetic nano-particles. Magnetic nano-composites like this provide magnetically tuneable properties of the polymer crystal as well as magnetic meta-crystals. Even though the grazing incidence small angle scattering and polarised signals are too weak to be evaluated at this stage we demonstrate that such experiments are feasible. Moreover, we show that the intensity of the 111 Bragg peak of the fcc micellar crystal depends on the actual shear rate, with the signal being maximised when the shear rate is lowest (and vice-versa).
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