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Literature DB >> 22400892

DNA transport and delivery in thermal gradients near optofluidic resonators.

Xavier Serey¹, Sudeep Mandal, Yih-Fan Chen, David Erickson.

Abstract

Heat generation and its impact on DNA transport in the vicinity of an optofluidic silicon photonic crystal resonator are studied theoretically and experimentally. The temperature rise is measured to be as high as 57 K for 10 mW of input power. The resulting optical trapping and biomolecular sensing properties of these devices are shown to be strongly affected by the combination of buoyancy driven flow and thermophoresis. Specifically, the region around the electromagnetic hot spot is depleted in biomolecules because of a high free energy barrier.

Mesh：

Substances：
DNA
Silicon

Year: 2012 PMID： 22400892 DOI： 10.1103/PhysRevLett.108.048102

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

8 in total

DNA transport and delivery in thermal gradients near optofluidic resonators.

1. Controlled photonic manipulation of proteins and other nanomaterials.

2. Label-free detection with high-Q microcavities: a review of biosensing mechanisms for integrated devices.

3. Electro-optofluidics: achieving dynamic control on-chip.

4. Nanophotonic force microscopy: characterizing particle-surface interactions using near-field photonics.

5. Localized opto-mechanical control of protein adsorption onto carbon nanotubes.

Review 6. Nanophotonic trapping: precise manipulation and measurement of biomolecular arrays.

7. Mass transport effects in suspended waveguide biosensors integrated in microfluidic channels.

Review 8. Bio-Molecular Applications of Recent Developments in Optical Tweezers.