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Feature papers are submitted upon individual invitation or recommendation by the scientific editors and must receive positive feedback from the reviewers.

Li S, Tong X, Cai L, Zhang L. Integrated Hybrid Tweezer for Particle Trapping with Combined Optical and Acoustic Forces. Applied Sciences. 2023; 13(19):10673. https://doi.org/10.3390/app131910673

Li, S.; Tong, X.; Cai, L.; Zhang, L. Integrated Hybrid Tweezer for Particle Trapping with Combined Optical and Acoustic Forces. Appl. Sci. 2023, 13, 10673. https://doi.org/10.3390/app131910673

Li, S., Tong, X., Cai, L., & Zhang, L. (2023). Integrated Hybrid Tweezer for Particle Trapping with Combined Optical and Acoustic Forces. Applied Sciences, 13(19), 10673. https://doi.org/10.3390/app131910673

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From product design to full-scale volume production, Edmund Optics® Imaging supports customers at each step of the project journey. Edmund Optics' expert ...

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The main difference between polarized and unpolarized light is that polarized light has electric fields oscillating in one direction, whereas ...

Feature papers represent the most advanced research with significant potential for high impact in the field. A Feature Paper should be a substantial original Article that involves several techniques or approaches, provides an outlook for future research directions and describes possible research applications.

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Li, Sen, Xin Tong, Lutong Cai, and Lin Zhang. 2023. "Integrated Hybrid Tweezer for Particle Trapping with Combined Optical and Acoustic Forces" Applied Sciences 13, no. 19: 10673. https://doi.org/10.3390/app131910673

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Abstract: Featured ApplicationThe proposed integrated hybrid tweezer can capture micron-sized particles and control their movements. It can be used as the fixed center for yeasts and other small biological objects in chip laboratories within the fields of biology and medicine, including applications in drinking water technology and drug delivery. AbstractWe propose an on-chip integrated hybrid tweezer that can simultaneously apply optical and acoustic forces on particles to control their motions. Multiple potential wells can be formed to trap particles, and the acoustic force generated by an interdigital transducer can balance the optical force induced by an optical waveguide. For example, by driving the waveguide with an optical power of 100 mW and the interdigital transducer with a voltage of 1.466 V, the particle with a refractive index of 1.4 and a diameter of 5 μm (similar to yeast cells) can be stably trapped on the waveguide surface, and its trapping position is controllable by changing the optical power or voltage. Keywords: optical force; acoustic force; microparticles; particle trapping; trapping dynamics

Editor’s Choice articles are based on recommendations by the scientific editors of MDPI journals from around the world. Editors select a small number of articles recently published in the journal that they believe will be particularly interesting to readers, or important in the respective research area. The aim is to provide a snapshot of some of the most exciting work published in the various research areas of the journal.

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Li S, Tong X, Cai L, Zhang L. Integrated Hybrid Tweezer for Particle Trapping with Combined Optical and Acoustic Forces. Applied Sciences. 2023; 13(19):10673. https://doi.org/10.3390/app131910673

Li, S., Tong, X., Cai, L., & Zhang, L. (2023). Integrated Hybrid Tweezer for Particle Trapping with Combined Optical and Acoustic Forces. Applied Sciences, 13(19), 10673. https://doi.org/10.3390/app131910673

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Li, S.; Tong, X.; Cai, L.; Zhang, L. Integrated Hybrid Tweezer for Particle Trapping with Combined Optical and Acoustic Forces. Appl. Sci. 2023, 13, 10673. https://doi.org/10.3390/app131910673

Microscope objectives are usually designed to be used with a specific group of oculars and/or tube lenses strategically placed to assist in the removal of ...

Li, Sen, Xin Tong, Lutong Cai, and Lin Zhang. 2023. "Integrated Hybrid Tweezer for Particle Trapping with Combined Optical and Acoustic Forces" Applied Sciences 13, no. 19: 10673. https://doi.org/10.3390/app131910673

Optical Coherence Tomography. Optical coherence tomography (OCT) is a non-destructive tomographic imaging platform used to image soil, plant tissues, and a wide ...