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Holographic sensor

January 01, 1970

A holographic sensor is a device that comprises a hologram embedded in a smart material that detects certain molecules or metabolites.[1] This detection is usually a chemical interaction that is transduced as a change in one of the properties of the holographic reflection (as in the Bragg reflector), either refractive index or spacing between the holographic fringes.[2] The specificity of the sensor can be controlled by adding molecules in the polymer film that selectively interacts with the molecules of interest.

A holographic sensor aims to integrate the sensor component, the transducer and the display in one device for fast reading of molecular concentrations based in colorful reflections or wavelengths.[3]

Certain molecules that mimic biomolecule active sites or binding sites can be incorporated into the polymer that forms the holographic film in order to make the holographic sensors selective and/or sensitive to certain medical important molecules like glucose, etc.

The holographic sensors can be read from a fair distance[quantify] because the transducer element is light that has been refracted and reflected by the holographic grating embedded in the sensor. Therefore, they can be used in industrial applications where non-contact with the sensor is required. Other applications for holographic sensors are anti-counterfeiting [4]

Metabolites edit

Some of the metabolites detected by a holographic sensor are:

References edit

  1. ^ AK Yetisen; I Naydenova; F da Cruz Vasconcellos; J Blyth; CR Lowe (2014). "Holographic Sensors: Three-Dimensional Analyte-Sensitive Nanostructures and their Applications". Chemical Reviews. 114 (20): 10654–96. doi:10.1021/cr500116a. PMID 25211200.
  2. ^ AK Yetisen; Y Montelongo; FC Vasconcellos; JL Martinez-Hurtado; S Neupane; H Butt; MM Qasim; J Blyth; K Burling; JB Carmody; M Evans; TD Wilkinson; LT Kubota; MJ Monteiro; CR Lowe (2014). "Reusable, Robust, and Accurate Laser-Generated Photonic Nanosensor". Nano Letters. 14 (6): 3587–3593. Bibcode:2014NanoL..14.3587Y. doi:10.1021/nl5012504. PMID 24844116.
  3. ^ AK Yetisen; H Butt; F da Cruz Vasconcellos; Y Montelongo; CAB Davidson; J Blyth; JB Carmody; S Vignolini; U Steiner; JJ Baumberg; TD Wilkinson; CR Lowe (2014). "Light-Directed Writing of Chemically Tunable Narrow-Band Holographic Sensors". Advanced Optical Materials. 2 (3): 250–254. doi:10.1002/adom.201300375. S2CID 96257175.
  4. ^ FC Vasconcellos; AK Yetisen; Y Montelongo; H Butt; A Grigore; CAB Davidson; J Blyth; MJ Monteiro; TD Wilkinson; CR Lowe (2014). "Printable Surface Holograms via Laser Ablation" (PDF). ACS Photonics. 1 (6): 489–495. doi:10.1021/ph400149m.
  5. ^ Hurtado, J. L. Martinez; Lowe, C. R. (2014). "Ammonia-Sensitive Photonic Structures Fabricated in Nafion Membranes by Laser Ablation". ACS Applied Materials & Interfaces. 6 (11): 8903–8908. doi:10.1021/am5016588. ISSN 1944-8244. PMID 24803236.
  6. ^ CP Tsangarides; AK Yetisen; FC Vasconcellos; Y Montelongo; MM Qasim; CR Lowe; TD Wilkinson; H Butt (2014). "Computational modelling and characterisation of nanoparticle-based tuneable photonic crystal sensors" (PDF). RSC Advances. 4 (21): 10454–10461. Bibcode:2014RSCAd...410454T. doi:10.1039/C3RA47984F. S2CID 15441587.
  7. ^ a b Martínez-Hurtado, J. L.; Davidson, C. A. B.; Blyth, J.; Lowe, C. R. (2010). "Holographic Detection of Hydrocarbon Gases and Other Volatile Organic Compounds". Langmuir. 26 (19): 15694–15699. doi:10.1021/la102693m. ISSN 0743-7463. PMID 20836549.
  8. ^ Selective Holographic Glucose Sensor: http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=1426342&userType=inst
  9. ^ Blyth, Jeff; Millington, Roger B.; Mayes, Andrew G.; Frears, Emma R.; Lowe, Christopher R. (1996). "Holographic Sensor for Water in Solvents". Analytical Chemistry. 68 (7): 1089–1094. doi:10.1021/ac9509115. ISSN 0003-2700. PMID 21619138.
  10. ^ Sartain, Felicity K.; Yang, Xiaoping; Lowe, Christopher R. (2006). "Holographic Lactate Sensor". Analytical Chemistry. 78 (16): 5664–5670. doi:10.1021/ac060416g. ISSN 0003-2700. PMID 16906709.
  11. ^ Marshall, Alexander J.; Young, Duncan S.; Blyth, Jeff; Kabilan, Satyamoorthy; Lowe, Christopher R. (2004). "Metabolite-Sensitive Holographic Biosensors". Analytical Chemistry. 76 (5): 1518–1523. doi:10.1021/ac030357w. ISSN 0003-2700. PMID 14987112.
  12. ^ Millington, Roger B.; Mayes, Andrew G.; Blyth, Jeff.; Lowe, Christopher R. (1995). "A Holographic Sensor for Proteases". Analytical Chemistry. 67 (23): 4229–4233. doi:10.1021/ac00119a004. ISSN 0003-2700.
  13. ^ AK Yetisen; M Qasim; S Nosheen; TD Wilkinson; CR Lowe (2014). "Pulsed laser writing of holographic nanosensors". Journal of Materials Chemistry C. 2 (18): 3569. doi:10.1039/C3TC32507E.

January 01, 1970
holographic, sensor, holographic, sensor, device, that, comprises, hologram, embedded, smart, material, that, detects, certain, molecules, metabolites, this, detection, usually, chemical, interaction, that, transduced, change, properties, holographic, reflecti. A holographic sensor is a device that comprises a hologram embedded in a smart material that detects certain molecules or metabolites 1 This detection is usually a chemical interaction that is transduced as a change in one of the properties of the holographic reflection as in the Bragg reflector either refractive index or spacing between the holographic fringes 2 The specificity of the sensor can be controlled by adding molecules in the polymer film that selectively interacts with the molecules of interest A holographic sensor aims to integrate the sensor component the transducer and the display in one device for fast reading of molecular concentrations based in colorful reflections or wavelengths 3 Certain molecules that mimic biomolecule active sites or binding sites can be incorporated into the polymer that forms the holographic film in order to make the holographic sensors selective and or sensitive to certain medical important molecules like glucose etc The holographic sensors can be read from a fair distance quantify because the transducer element is light that has been refracted and reflected by the holographic grating embedded in the sensor Therefore they can be used in industrial applications where non contact with the sensor is required Other applications for holographic sensors are anti counterfeiting 4 Metabolites editSome of the metabolites detected by a holographic sensor are Ammonia 5 pH 6 Hydrocarbons 7 VOCs 7 Gases Glucose 8 Water content 9 Lactate 10 and other biomolecules 11 12 Metal ions 13 References edit AK Yetisen I Naydenova F da Cruz Vasconcellos J Blyth CR Lowe 2014 Holographic Sensors Three Dimensional Analyte Sensitive Nanostructures and their Applications Chemical Reviews 114 20 10654 96 doi 10 1021 cr500116a PMID 25211200 AK Yetisen Y Montelongo FC Vasconcellos JL Martinez Hurtado S Neupane H Butt MM Qasim J Blyth K Burling JB Carmody M Evans TD Wilkinson LT Kubota MJ Monteiro CR Lowe 2014 Reusable Robust and Accurate Laser Generated Photonic Nanosensor Nano Letters 14 6 3587 3593 Bibcode 2014NanoL 14 3587Y doi 10 1021 nl5012504 PMID 24844116 AK Yetisen H Butt F da Cruz Vasconcellos Y Montelongo CAB Davidson J Blyth JB Carmody S Vignolini U Steiner JJ Baumberg TD Wilkinson CR Lowe 2014 Light Directed Writing of Chemically Tunable Narrow Band Holographic Sensors Advanced Optical Materials 2 3 250 254 doi 10 1002 adom 201300375 S2CID 96257175 FC Vasconcellos AK Yetisen Y Montelongo H Butt A Grigore CAB Davidson J Blyth MJ Monteiro TD Wilkinson CR Lowe 2014 Printable Surface Holograms via Laser Ablation PDF ACS Photonics 1 6 489 495 doi 10 1021 ph400149m Hurtado J L Martinez Lowe C R 2014 Ammonia Sensitive Photonic Structures Fabricated in Nafion Membranes by Laser Ablation ACS Applied Materials amp Interfaces 6 11 8903 8908 doi 10 1021 am5016588 ISSN 1944 8244 PMID 24803236 CP Tsangarides AK Yetisen FC Vasconcellos Y Montelongo MM Qasim CR Lowe TD Wilkinson H Butt 2014 Computational modelling and characterisation of nanoparticle based tuneable photonic crystal sensors PDF RSC Advances 4 21 10454 10461 Bibcode 2014RSCAd 410454T doi 10 1039 C3RA47984F S2CID 15441587 a b Martinez Hurtado J L Davidson C A B Blyth J Lowe C R 2010 Holographic Detection of Hydrocarbon Gases and Other Volatile Organic Compounds Langmuir 26 19 15694 15699 doi 10 1021 la102693m ISSN 0743 7463 PMID 20836549 Selective Holographic Glucose Sensor http ieeexplore ieee org stamp stamp jsp tp amp arnumber 1426342 amp userType inst Blyth Jeff Millington Roger B Mayes Andrew G Frears Emma R Lowe Christopher R 1996 Holographic Sensor for Water in Solvents Analytical Chemistry 68 7 1089 1094 doi 10 1021 ac9509115 ISSN 0003 2700 PMID 21619138 Sartain Felicity K Yang Xiaoping Lowe Christopher R 2006 Holographic Lactate Sensor Analytical Chemistry 78 16 5664 5670 doi 10 1021 ac060416g ISSN 0003 2700 PMID 16906709 Marshall Alexander J Young Duncan S Blyth Jeff Kabilan Satyamoorthy Lowe Christopher R 2004 Metabolite Sensitive Holographic Biosensors Analytical Chemistry 76 5 1518 1523 doi 10 1021 ac030357w ISSN 0003 2700 PMID 14987112 Millington Roger B Mayes Andrew G Blyth Jeff Lowe Christopher R 1995 A Holographic Sensor for Proteases Analytical Chemistry 67 23 4229 4233 doi 10 1021 ac00119a004 ISSN 0003 2700 AK Yetisen M Qasim S Nosheen TD Wilkinson CR Lowe 2014 Pulsed laser writing of holographic nanosensors Journal of Materials Chemistry C 2 18 3569 doi 10 1039 C3TC32507E Retrieved from https en wikipedia org w index php title Holographic sensor amp oldid 1166812806, wikipedia, wiki, book, books, library,

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