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Abstract

Nano Letters 2023, 23, 7500-7507

Anapole-assisted low-power optical trapping of nanoscale extracellular vesicles and particles

Hong I, Hong C, Tutanov OS, Massick C, Castleberry M, Zhang Q, Jeppesen DK, Higginbotham JN, Franklin JL, Vickers K, Coffey RJ, Ndukaife JC

This study addresses the challenge of trapping nanoscale biological particles using optical tweezers without the photothermal heating effect and the limitation presented by the diffraction limit. Optical tweezers are effective for trapping microscopic biological objects but not for nanoscale specimens due to the diffraction limit. To overcome this, we present an approach that uses optical anapole states in all-dielectric nanoantenna systems on distributed Bragg reflector substrates to generate strong optical gradient force and potential on nanoscale biological objects with negligible temperature rise below 1 K. The anapole antenna condenses the accessible electromagnetic energy to scales as small as 30 nm. Using this approach, we successfully trapped nanosized extracellular vesicles and supermeres (approximately 25 nm in size) using low laser power of only 10.8 mW. This nanoscale optical trapping platform has great potential for single molecule analysis while precluding photothermal degradation.