Tunable Optical Matter: Electrostatic Repulsion Modulates Near- and Far-Field Gold Nanoparticle Arrangements †

Jim Jui-Kai Chen; Jorge Olmos-Trigo; Boris Louis; Chih-Hao Huang; Susana Rocha; Hiroshi Masuhara; Johan Hofkens; Rafael Delgado-Buscalioni; Roger Bresolí-Obach; Manuel Marques; Marc Melendez Schofield

doi:10.1039/D5NA00926J

Tunable Optical Matter: Electrostatic Repulsion Modulates Near- and Far-Field Gold Nanoparticle Arrangements †

Jim Jui-Kai Chen
, Jorge Olmos-Trigo
, Boris Louis
, Chih-Hao Huang
, Susana Rocha
, Hiroshi Masuhara
, Johan Hofkens
, Rafael Delgado-Buscalioni
, Roger Bresolí-Obach^*
, Manuel Marques^*
, Marc Melendez Schofield^*

^*Autor corresponent d’aquest treball

Producció científica: Article en revista indexada › Article › Avaluat per experts

Resum

The dynamics and equilibrium configurations of immersed optically-bound particles are complex phenomena involving several physical mechanisms such as optical forces, electrostatic interactions, and fluid dynamics. In this work, we unravel, using experiments and numerical simulations, the key role played by short-range electrostatic forces. The repulsive interaction among gold nanoparticles is adjusted by changing the salt concentration. When the electrostatic interaction is reduced, near-field optical binding with particles oriented along the polarization direction is promoted, while, for low values of the salt concentration, inter-particle repulsion induces far-field (FF) optical binding configurations oriented perpendicular to the polarization. The importance of electrostatic force is confirmed by a theoretical model in which the repulsive effect is explicitly tuned. The numerical results reproduce the measured particle configurations and highlight the dominant role of electrostatic interactions, particularly in FF optical binding configurations.

Idioma original	Anglès
Pàgines (de-a)	1-9
Nombre de pàgines	9
Revista	Nanoscale Advances
DOIs	https://doi.org/10.1039/D5NA00926J
Estat de la publicació	Publicació electrònica prèvia a la impressió - 30 de des. 2025

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10.1039/D5NA00926JLlicència: CC BY

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Chen, J. J.-K., Olmos-Trigo, J., Louis, B., Huang, C.-H., Rocha, S., Masuhara, H., Hofkens, J., Delgado-Buscalioni, R., Bresolí-Obach, R., Marques, M., & Melendez Schofield, M. (2025). Tunable Optical Matter: Electrostatic Repulsion Modulates Near- and Far-Field Gold Nanoparticle Arrangements †. Nanoscale Advances, 1-9. Publicació online avançada. https://doi.org/10.1039/D5NA00926J

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title = "Tunable Optical Matter: Electrostatic Repulsion Modulates Near- and Far-Field Gold Nanoparticle Arrangements †",

abstract = "The dynamics and equilibrium configurations of immersed optically-bound particles are complex phenomena involving several physical mechanisms such as optical forces, electrostatic interactions, and fluid dynamics. In this work, we unravel, using experiments and numerical simulations, the key role played by short-range electrostatic forces. The repulsive interaction among gold nanoparticles is adjusted by changing the salt concentration. When the electrostatic interaction is reduced, near-field optical binding with particles oriented along the polarization direction is promoted, while, for low values of the salt concentration, inter-particle repulsion induces far-field (FF) optical binding configurations oriented perpendicular to the polarization. The importance of electrostatic force is confirmed by a theoretical model in which the repulsive effect is explicitly tuned. The numerical results reproduce the measured particle configurations and highlight the dominant role of electrostatic interactions, particularly in FF optical binding configurations.",

author = "Chen, \{Jim Jui-Kai\} and Jorge Olmos-Trigo and Boris Louis and Chih-Hao Huang and Susana Rocha and Hiroshi Masuhara and Johan Hofkens and Rafael Delgado-Buscalioni and Roger Bresol{\'i}-Obach and Manuel Marques and \{Melendez Schofield\}, Marc",

year = "2025",

month = dec,

day = "30",

doi = "10.1039/D5NA00926J",

language = "English",

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T1 - Tunable Optical Matter: Electrostatic Repulsion Modulates Near- and Far-Field Gold Nanoparticle Arrangements †

AU - Chen, Jim Jui-Kai

AU - Olmos-Trigo, Jorge

AU - Louis, Boris

AU - Huang, Chih-Hao

AU - Rocha, Susana

AU - Masuhara, Hiroshi

AU - Hofkens, Johan

AU - Delgado-Buscalioni, Rafael

AU - Bresolí-Obach, Roger

AU - Marques, Manuel

AU - Melendez Schofield, Marc

PY - 2025/12/30

Y1 - 2025/12/30

N2 - The dynamics and equilibrium configurations of immersed optically-bound particles are complex phenomena involving several physical mechanisms such as optical forces, electrostatic interactions, and fluid dynamics. In this work, we unravel, using experiments and numerical simulations, the key role played by short-range electrostatic forces. The repulsive interaction among gold nanoparticles is adjusted by changing the salt concentration. When the electrostatic interaction is reduced, near-field optical binding with particles oriented along the polarization direction is promoted, while, for low values of the salt concentration, inter-particle repulsion induces far-field (FF) optical binding configurations oriented perpendicular to the polarization. The importance of electrostatic force is confirmed by a theoretical model in which the repulsive effect is explicitly tuned. The numerical results reproduce the measured particle configurations and highlight the dominant role of electrostatic interactions, particularly in FF optical binding configurations.

AB - The dynamics and equilibrium configurations of immersed optically-bound particles are complex phenomena involving several physical mechanisms such as optical forces, electrostatic interactions, and fluid dynamics. In this work, we unravel, using experiments and numerical simulations, the key role played by short-range electrostatic forces. The repulsive interaction among gold nanoparticles is adjusted by changing the salt concentration. When the electrostatic interaction is reduced, near-field optical binding with particles oriented along the polarization direction is promoted, while, for low values of the salt concentration, inter-particle repulsion induces far-field (FF) optical binding configurations oriented perpendicular to the polarization. The importance of electrostatic force is confirmed by a theoretical model in which the repulsive effect is explicitly tuned. The numerical results reproduce the measured particle configurations and highlight the dominant role of electrostatic interactions, particularly in FF optical binding configurations.

U2 - 10.1039/D5NA00926J

DO - 10.1039/D5NA00926J

M3 - Article

SN - 2516-0230

SP - 1

EP - 9

JO - Nanoscale Advances

JF - Nanoscale Advances

ER -

Tunable Optical Matter: Electrostatic Repulsion Modulates Near- and Far-Field Gold Nanoparticle Arrangements †

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