Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Research › peer-review
Obtaining an Array of Closely Packed Mesoscale Spheres Using Dielectrophoresis Forces for Optical Super-Resolution Microscopy. / Minin, Igor V.; Minin, Oleg V.; Paulish, Andrey G.
2022 IEEE International Multi-Conference on Engineering, Computer and Information Sciences (SIBIRCON). Institute of Electrical and Electronics Engineers (IEEE), 2023. p. 1480-1484.Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Research › peer-review
}
TY - GEN
T1 - Obtaining an Array of Closely Packed Mesoscale Spheres Using Dielectrophoresis Forces for Optical Super-Resolution Microscopy
AU - Minin, Igor V.
AU - Minin, Oleg V.
AU - Paulish, Andrey G.
PY - 2023/1/23
Y1 - 2023/1/23
N2 - We reported on the proof of the concept of dielectric mesoscale particle array-based cover glass for optical super-resolution microscopy. The limited field of view is a limitation of ultra-high resolution microscopy based on single mesoscale particles. Using the forces of dielectrophoresis, we placed an ordered mesoscale spheres array over the sample and overcame this limitation using. A dielectrophoresis force acted on the mesoscale sphere electric dipole, which has set the particle into the forward motion due to an induced dipole moment formed in the volume of such particle placed in an inhomogeneous alternating electric field. The latex spheres were placed into the gap between the electrodes of the measuring cell. After the application of an electric field, the microspheres were grouped into arrays of densely spaced particles. The preliminary experiments confirmed the possibility of organizing an array of densely packed mesoscale particles under the action of dielectrophoresis force. The results obtained can be used for various applications in ultra-high resolution microscopy with extended functionality.
AB - We reported on the proof of the concept of dielectric mesoscale particle array-based cover glass for optical super-resolution microscopy. The limited field of view is a limitation of ultra-high resolution microscopy based on single mesoscale particles. Using the forces of dielectrophoresis, we placed an ordered mesoscale spheres array over the sample and overcame this limitation using. A dielectrophoresis force acted on the mesoscale sphere electric dipole, which has set the particle into the forward motion due to an induced dipole moment formed in the volume of such particle placed in an inhomogeneous alternating electric field. The latex spheres were placed into the gap between the electrodes of the measuring cell. After the application of an electric field, the microspheres were grouped into arrays of densely spaced particles. The preliminary experiments confirmed the possibility of organizing an array of densely packed mesoscale particles under the action of dielectrophoresis force. The results obtained can be used for various applications in ultra-high resolution microscopy with extended functionality.
UR - https://www.scopus.com/inward/record.url?eid=2-s2.0-85147497058&partnerID=40&md5=cd56be0d9251cd2d3c770d821ddb8a17
UR - https://www.mendeley.com/catalogue/e01236a8-174f-379a-b3cf-6299e651d869/
U2 - 10.1109/sibircon56155.2022.10016908
DO - 10.1109/sibircon56155.2022.10016908
M3 - Conference contribution
SN - 9781665464802
SP - 1480
EP - 1484
BT - 2022 IEEE International Multi-Conference on Engineering, Computer and Information Sciences (SIBIRCON)
PB - Institute of Electrical and Electronics Engineers (IEEE)
T2 - 2022 IEEE International Multi-Conference on Engineering, Computer and Information Sciences, SIBIRCON 2022
Y2 - 11 November 2022 through 13 November 2022
ER -
ID: 45713128