Mikael Kall
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Explore the profile of Mikael Kall including associated specialties, affiliations and a list of published articles.
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101
Citations
1973
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Recent Articles
1.
Shanei M, Wang G, Johansson P, Volpe G, Kall M
Nano Lett
. 2025 Mar;
PMID: 40033159
Contact-free rotation of microscopic objects in aqueous environments based on optical forces is a powerful concept in the development of light-driven microrobots, micromachines, torque transducers, and rheological sensors. Here, we...
2.
Johansson P, Kall M, Sipova-Jungova H
J Phys Chem Lett
. 2025 Jan;
16(5):1288-1295.
PMID: 39869771
Functional gold nanoparticles have emerged as a cornerstone in targeted drug delivery, imaging, and biosensing. Their stability, distribution, and overall performance in biological systems are largely determined by their interactions...
3.
Engay E, Shanei M, Mylnikov V, Wang G, Johansson P, Volpe G, et al.
Light Sci Appl
. 2025 Jan;
14(1):38.
PMID: 39774701
Nanostructured dielectric metasurfaces offer unprecedented opportunities to control light-matter momentum exchange, and thereby the forces and torques that light can exert on matter. Here we introduce optical metasurfaces as components...
4.
Midtvedt D, Mylnikov V, Stilgoe A, Kall M, Rubinsztein-Dunlop H, Volpe G
Nanophotonics
. 2024 Dec;
11(14):3189-3214.
PMID: 39635557
The deep-learning revolution is providing enticing new opportunities to manipulate and harness light at all scales. By building models of light-matter interactions from large experimental or simulated datasets, deep learning...
5.
Wang G, Nowakowski P, Farahmand Bafi N, Midtvedt B, Schmidt F, Callegari A, et al.
Nat Commun
. 2024 Jun;
15(1):5086.
PMID: 38876993
The manipulation of microscopic objects requires precise and controllable forces and torques. Recent advances have led to the use of critical Casimir forces as a powerful tool, which can be...
6.
Cui X, Mylnikov V, Johansson P, Kall M
Sci Adv
. 2024 Mar;
10(10):eadn3485.
PMID: 38457509
Self-assembly of nanoparticles by means of interparticle optical forces provides a compelling approach toward contact-free organization and manipulation of nanoscale entities. However, exploration of the rotational degrees of freedom in...
7.
Juodenas M, Strandberg E, Grabowski A, Gustavsson J, Sipova-Jungova H, Larsson A, et al.
Light Sci Appl
. 2023 Oct;
12(1):251.
PMID: 37833318
Flat metaoptics components are looking to replace classical optics elements and could lead to extremely compact biophotonics devices if integrated with on-chip light sources and detectors. However, using metasurfaces to...
8.
Mahdi Shanei M, Engay E, Kall M
Opt Lett
. 2022 Dec;
47(24):6428-6431.
PMID: 36538466
Optical tweezers have opened numerous possibilities for precise control of microscopic particles for applications in life science and soft matter research and technology. However, traditional optical tweezers employ bulky conventional...
9.
Spackova B, Klein Moberg H, Fritzsche J, Tenghamn J, Sjosten G, Sipova-Jungova H, et al.
Nat Methods
. 2022 May;
19(6):751-758.
PMID: 35637303
Label-free characterization of single biomolecules aims to complement fluorescence microscopy in situations where labeling compromises data interpretation, is technically challenging or even impossible. However, existing methods require the investigated species...
10.
Andren D, Baranov D, Jones S, Volpe G, Verre R, Kall M
Nat Nanotechnol
. 2021 Jul;
16(9):970-974.
PMID: 34294910
Nanostructured dielectric metasurfaces offer unprecedented opportunities to manipulate light by imprinting an arbitrary phase gradient on an impinging wavefront. This has resulted in the realization of a range of flat...