2019
DOI: 10.1002/adom.201900829
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Thermal Optofluidics: Principles and Applications

Abstract: Thermal optofluidics is an emerging field that promises to create numerous research and application opportunities in biophysics, biochemistry, and clinical biology. Innovation in plasmonic optics has led to the development of various invaluable tools in the fields of biosensing and microfluidic manipulation. The optothermal effect originates from light–matter interactions during photon–phonon conversion, which can lead to micro‐ or nanoscale inhomogeneities in the thermal distribution. This further induces a s… Show more

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Cited by 63 publications
(54 citation statements)
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References 126 publications
(247 reference statements)
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“…The two phenomena have greatly facilitated optical force induced tweezers 54 because of their abilities of long-range manipulation and facile energy-efficient trapping of small particles in recent years. [55][56][57] Working principle The interaction between antibody and antigen is a complex and dynamic phenomenon based on noncovalent forces. The interaction between antibody Ab and antigen Ag at equilibrium can be expressed as: 58 Ab + Ag ⇌ Ab − Ag When antibody Ab and antigen Ag tend to combine, several criteria are required: (i) The distance between Ab and Ag is small enough; (ii) The two molecules must be arranged in the proper spatial orientation for an effective binding.…”
Section: Wavelength Based Surface Plasmon Resonance Imaging (Wspri)mentioning
confidence: 99%
“…The two phenomena have greatly facilitated optical force induced tweezers 54 because of their abilities of long-range manipulation and facile energy-efficient trapping of small particles in recent years. [55][56][57] Working principle The interaction between antibody and antigen is a complex and dynamic phenomenon based on noncovalent forces. The interaction between antibody Ab and antigen Ag at equilibrium can be expressed as: 58 Ab + Ag ⇌ Ab − Ag When antibody Ab and antigen Ag tend to combine, several criteria are required: (i) The distance between Ab and Ag is small enough; (ii) The two molecules must be arranged in the proper spatial orientation for an effective binding.…”
Section: Wavelength Based Surface Plasmon Resonance Imaging (Wspri)mentioning
confidence: 99%
“…This regime has been applied as a lithographic tool for controlled deposition of plasmonic NPs onto the same plasmonic substrate (a film of gold nano-islands fixed onto a glass wafer) required for microbubble generation 34 . Other optofluidic mechanisms, such as thermophoresis or the Seebeck effect with promising technological applications 19 , are outside the scope of the presented experimental study.…”
Section: Introductionmentioning
confidence: 99%
“…In particular, illumination of a metal NP or nanostructure with a wavelength close to the plasmon resonance transforms it into an efficient local heat source due to the enhanced light absorption. A resonant metal NP can easily reach a temperature that can alter the physical environment, for example, the viscosity of the fluid surrounding it 18 , 19 . This behaviour is the basis of numerous applications, such as photothermal therapy, drug delivery, photothermal and photoacoustic imaging and thermal optofluidics 18 28 .…”
Section: Introductionmentioning
confidence: 99%
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