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You searched for +publisher:"Vanderbilt University" +contributor:("Sharon M. Weiss"). Showing records 1 – 30 of 33 total matches.

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Vanderbilt University

1. Schreuder, Michael Alan. Ultrasmall, white-light CdSe nanocrystals: ligand effects and incorporation into solid-state lighting.

Degree: PhD, Chemistry, 2010, Vanderbilt University

 Due to the declining availability of fossil-fuels and the adverse environmental affects of the same, the world has begun a move to more efficient and… (more)

Subjects/Keywords: white light; ligand; nanocrystal; CdSe; LED

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APA (6th Edition):

Schreuder, M. A. (2010). Ultrasmall, white-light CdSe nanocrystals: ligand effects and incorporation into solid-state lighting. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu/available/etd-01212010-094710/ ;

Chicago Manual of Style (16th Edition):

Schreuder, Michael Alan. “Ultrasmall, white-light CdSe nanocrystals: ligand effects and incorporation into solid-state lighting.” 2010. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu/available/etd-01212010-094710/ ;.

MLA Handbook (7th Edition):

Schreuder, Michael Alan. “Ultrasmall, white-light CdSe nanocrystals: ligand effects and incorporation into solid-state lighting.” 2010. Web. 23 Jan 2020.

Vancouver:

Schreuder MA. Ultrasmall, white-light CdSe nanocrystals: ligand effects and incorporation into solid-state lighting. [Internet] [Doctoral dissertation]. Vanderbilt University; 2010. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu/available/etd-01212010-094710/ ;.

Council of Science Editors:

Schreuder MA. Ultrasmall, white-light CdSe nanocrystals: ligand effects and incorporation into solid-state lighting. [Doctoral Dissertation]. Vanderbilt University; 2010. Available from: http://etd.library.vanderbilt.edu/available/etd-01212010-094710/ ;


Vanderbilt University

2. Ciesielski, Peter Nolan. Photosystem I â Based Systems for Photoelectrochemical Energy Conversion.

Degree: PhD, Interdisciplinary Materials Science, 2010, Vanderbilt University

 This dissertation investigates the incorporation of Photosystem I (PSI), a supramolecular protein complex that participates in the light reactions of photosynthesis, into electrochemical systems intended… (more)

Subjects/Keywords: bionanotechnology; electrochemistry; energy conversion

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APA (6th Edition):

Ciesielski, P. N. (2010). Photosystem I â Based Systems for Photoelectrochemical Energy Conversion. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu/available/etd-08172010-154539/ ;

Chicago Manual of Style (16th Edition):

Ciesielski, Peter Nolan. “Photosystem I â Based Systems for Photoelectrochemical Energy Conversion.” 2010. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu/available/etd-08172010-154539/ ;.

MLA Handbook (7th Edition):

Ciesielski, Peter Nolan. “Photosystem I â Based Systems for Photoelectrochemical Energy Conversion.” 2010. Web. 23 Jan 2020.

Vancouver:

Ciesielski PN. Photosystem I â Based Systems for Photoelectrochemical Energy Conversion. [Internet] [Doctoral dissertation]. Vanderbilt University; 2010. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu/available/etd-08172010-154539/ ;.

Council of Science Editors:

Ciesielski PN. Photosystem I â Based Systems for Photoelectrochemical Energy Conversion. [Doctoral Dissertation]. Vanderbilt University; 2010. Available from: http://etd.library.vanderbilt.edu/available/etd-08172010-154539/ ;


Vanderbilt University

3. Xu, Zhou. Engineered microarrayed surfaces for the detection of biomolecules.

Degree: PhD, Chemical Engineering, 2011, Vanderbilt University

 DNA microarrays have become an increasingly important tool for genomic investigations. This work is directed toward establishing methods and surface architectures that allow the monitoring… (more)

Subjects/Keywords: total internal reflection fluorescence; DNA melting; DNA hybridization; DNA microarray; microarray; imaging mass spectrometry

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APA (6th Edition):

Xu, Z. (2011). Engineered microarrayed surfaces for the detection of biomolecules. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu//available/etd-03282011-233302/ ;

Chicago Manual of Style (16th Edition):

Xu, Zhou. “Engineered microarrayed surfaces for the detection of biomolecules.” 2011. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu//available/etd-03282011-233302/ ;.

MLA Handbook (7th Edition):

Xu, Zhou. “Engineered microarrayed surfaces for the detection of biomolecules.” 2011. Web. 23 Jan 2020.

Vancouver:

Xu Z. Engineered microarrayed surfaces for the detection of biomolecules. [Internet] [Doctoral dissertation]. Vanderbilt University; 2011. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu//available/etd-03282011-233302/ ;.

Council of Science Editors:

Xu Z. Engineered microarrayed surfaces for the detection of biomolecules. [Doctoral Dissertation]. Vanderbilt University; 2011. Available from: http://etd.library.vanderbilt.edu//available/etd-03282011-233302/ ;


Vanderbilt University

4. Appavoo, Kannatassen. Hybrid phase-changing nanostructures: from reconfigurable plasmonic devices to ultrafast dynamics.

Degree: PhD, Interdisciplinary Materials Science, 2012, Vanderbilt University

 Ultrafast photoinduced phase transitions in quantum materials could revolutionize data-storage and telecommunications technologies by modulating transport in integrated nanocircuits at terahertz speeds. In phase-changing materials… (more)

Subjects/Keywords: second harmonic generation; ultrafast spectroscopy; metamaterial; interferrometric autocorrelation; vanadium dioxide; hysteresis; phase-changing material; plasmonics; nanoparticle; nanostructure

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APA (6th Edition):

Appavoo, K. (2012). Hybrid phase-changing nanostructures: from reconfigurable plasmonic devices to ultrafast dynamics. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu//available/etd-12192012-142742/ ;

Chicago Manual of Style (16th Edition):

Appavoo, Kannatassen. “Hybrid phase-changing nanostructures: from reconfigurable plasmonic devices to ultrafast dynamics.” 2012. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu//available/etd-12192012-142742/ ;.

MLA Handbook (7th Edition):

Appavoo, Kannatassen. “Hybrid phase-changing nanostructures: from reconfigurable plasmonic devices to ultrafast dynamics.” 2012. Web. 23 Jan 2020.

Vancouver:

Appavoo K. Hybrid phase-changing nanostructures: from reconfigurable plasmonic devices to ultrafast dynamics. [Internet] [Doctoral dissertation]. Vanderbilt University; 2012. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu//available/etd-12192012-142742/ ;.

Council of Science Editors:

Appavoo K. Hybrid phase-changing nanostructures: from reconfigurable plasmonic devices to ultrafast dynamics. [Doctoral Dissertation]. Vanderbilt University; 2012. Available from: http://etd.library.vanderbilt.edu//available/etd-12192012-142742/ ;


Vanderbilt University

5. Moitra, Parikshit. Mie Resonance Based All-Dielectric Metamaterials at Optical Frequencies.

Degree: PhD, Interdisciplinary Materials Science, 2015, Vanderbilt University

 Electromagnetic metamaterials are artificially fabricated structures that exhibit properties unattainable in naturally occurring materials, such as negative index, epsilon-near-zero, ultra-high index, perfect lensing, and cloaking.… (more)

Subjects/Keywords: Mie Resonance; Perfect Reflectors; Nanosphere Lithography; Zero Index of Refraction; Metamaterials; Electric dipole; magnetic dipole.

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APA (6th Edition):

Moitra, P. (2015). Mie Resonance Based All-Dielectric Metamaterials at Optical Frequencies. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu/available/etd-07172015-161057/ ;

Chicago Manual of Style (16th Edition):

Moitra, Parikshit. “Mie Resonance Based All-Dielectric Metamaterials at Optical Frequencies.” 2015. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu/available/etd-07172015-161057/ ;.

MLA Handbook (7th Edition):

Moitra, Parikshit. “Mie Resonance Based All-Dielectric Metamaterials at Optical Frequencies.” 2015. Web. 23 Jan 2020.

Vancouver:

Moitra P. Mie Resonance Based All-Dielectric Metamaterials at Optical Frequencies. [Internet] [Doctoral dissertation]. Vanderbilt University; 2015. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu/available/etd-07172015-161057/ ;.

Council of Science Editors:

Moitra P. Mie Resonance Based All-Dielectric Metamaterials at Optical Frequencies. [Doctoral Dissertation]. Vanderbilt University; 2015. Available from: http://etd.library.vanderbilt.edu/available/etd-07172015-161057/ ;


Vanderbilt University

6. Hu, Shuren. Engineering Light-matter Interaction in Dielectric Nanophotonic Resonators.

Degree: PhD, Physics, 2016, Vanderbilt University

 Engineering light-matter interaction at the nanoscale has the promise to enable technological advances in a wide range of technological applications, including biomolecular sensing, communication, quantum… (more)

Subjects/Keywords: dielectric resonator; photonic crystal; resonator; nanotechnology; photonics; optics

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APA (6th Edition):

Hu, S. (2016). Engineering Light-matter Interaction in Dielectric Nanophotonic Resonators. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu//available/etd-12212016-141759/ ;

Chicago Manual of Style (16th Edition):

Hu, Shuren. “Engineering Light-matter Interaction in Dielectric Nanophotonic Resonators.” 2016. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu//available/etd-12212016-141759/ ;.

MLA Handbook (7th Edition):

Hu, Shuren. “Engineering Light-matter Interaction in Dielectric Nanophotonic Resonators.” 2016. Web. 23 Jan 2020.

Vancouver:

Hu S. Engineering Light-matter Interaction in Dielectric Nanophotonic Resonators. [Internet] [Doctoral dissertation]. Vanderbilt University; 2016. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu//available/etd-12212016-141759/ ;.

Council of Science Editors:

Hu S. Engineering Light-matter Interaction in Dielectric Nanophotonic Resonators. [Doctoral Dissertation]. Vanderbilt University; 2016. Available from: http://etd.library.vanderbilt.edu//available/etd-12212016-141759/ ;


Vanderbilt University

7. Zhu, Zhihua. Dynamic Optical Metamaterials Based on Vanadium Dioxide.

Degree: PhD, Electrical Engineering, 2019, Vanderbilt University

 The development of dynamically reconfigurable materials has long been a goal of the metamaterial community. Vanadium dioxide, a first-order phase change material, is a prime… (more)

Subjects/Keywords: Metamaterials; phase change materials; VO2

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APA (6th Edition):

Zhu, Z. (2019). Dynamic Optical Metamaterials Based on Vanadium Dioxide. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu/available/etd-01172019-222905/ ;

Chicago Manual of Style (16th Edition):

Zhu, Zhihua. “Dynamic Optical Metamaterials Based on Vanadium Dioxide.” 2019. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu/available/etd-01172019-222905/ ;.

MLA Handbook (7th Edition):

Zhu, Zhihua. “Dynamic Optical Metamaterials Based on Vanadium Dioxide.” 2019. Web. 23 Jan 2020.

Vancouver:

Zhu Z. Dynamic Optical Metamaterials Based on Vanadium Dioxide. [Internet] [Doctoral dissertation]. Vanderbilt University; 2019. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu/available/etd-01172019-222905/ ;.

Council of Science Editors:

Zhu Z. Dynamic Optical Metamaterials Based on Vanadium Dioxide. [Doctoral Dissertation]. Vanderbilt University; 2019. Available from: http://etd.library.vanderbilt.edu/available/etd-01172019-222905/ ;


Vanderbilt University

8. Wang, Wenyi. Enhancing Light-matter Interaction in Ultrathin Films using Optical Nanostructures.

Degree: PhD, Electrical Engineering, 2016, Vanderbilt University

 Ultrathin films including two-dimensional materials and transparent conductive oxide nano-films are excellent candidates for future optoelectronic devices. However, external quantum efficiencies of the ultrathin film-based… (more)

Subjects/Keywords: Two-dimensional materials; Optoelectronics; Photodetection; Modulation; Metamaterial; Plasmonics

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APA (6th Edition):

Wang, W. (2016). Enhancing Light-matter Interaction in Ultrathin Films using Optical Nanostructures. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu/available/etd-03282016-105353/ ;

Chicago Manual of Style (16th Edition):

Wang, Wenyi. “Enhancing Light-matter Interaction in Ultrathin Films using Optical Nanostructures.” 2016. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu/available/etd-03282016-105353/ ;.

MLA Handbook (7th Edition):

Wang, Wenyi. “Enhancing Light-matter Interaction in Ultrathin Films using Optical Nanostructures.” 2016. Web. 23 Jan 2020.

Vancouver:

Wang W. Enhancing Light-matter Interaction in Ultrathin Films using Optical Nanostructures. [Internet] [Doctoral dissertation]. Vanderbilt University; 2016. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu/available/etd-03282016-105353/ ;.

Council of Science Editors:

Wang W. Enhancing Light-matter Interaction in Ultrathin Films using Optical Nanostructures. [Doctoral Dissertation]. Vanderbilt University; 2016. Available from: http://etd.library.vanderbilt.edu/available/etd-03282016-105353/ ;


Vanderbilt University

9. Miller, Kevin Joseph. Hybrid Silicon-Vanadium Dioxide Photonic Devices for Optical Modulation.

Degree: PhD, Interdisciplinary Materials Science, 2018, Vanderbilt University

 The integration of optical components with silicon complementary metalâoxideâsemiconductor (CMOS) technology may lead to the increase in information carrying capacity and reduction in power consumption… (more)

Subjects/Keywords: vanadium dioxide; optical modulation; silicon photonics

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APA (6th Edition):

Miller, K. J. (2018). Hybrid Silicon-Vanadium Dioxide Photonic Devices for Optical Modulation. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu/available/etd-03262018-180125/ ;

Chicago Manual of Style (16th Edition):

Miller, Kevin Joseph. “Hybrid Silicon-Vanadium Dioxide Photonic Devices for Optical Modulation.” 2018. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu/available/etd-03262018-180125/ ;.

MLA Handbook (7th Edition):

Miller, Kevin Joseph. “Hybrid Silicon-Vanadium Dioxide Photonic Devices for Optical Modulation.” 2018. Web. 23 Jan 2020.

Vancouver:

Miller KJ. Hybrid Silicon-Vanadium Dioxide Photonic Devices for Optical Modulation. [Internet] [Doctoral dissertation]. Vanderbilt University; 2018. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu/available/etd-03262018-180125/ ;.

Council of Science Editors:

Miller KJ. Hybrid Silicon-Vanadium Dioxide Photonic Devices for Optical Modulation. [Doctoral Dissertation]. Vanderbilt University; 2018. Available from: http://etd.library.vanderbilt.edu/available/etd-03262018-180125/ ;


Vanderbilt University

10. Ferrara, Davon Wayne. Plasmonic Interactions in Gold::Vanadium Dioxide Hybrid Nanostructures.

Degree: PhD, Physics, 2011, Vanderbilt University

 Hybrid nanocomposites consisting of arrays of gold (Au) nanoparticles (NPs) and vanadium dioxide (VO2) were fabricated on indium-tin-oxide coated glass substrates. The Au NPs, with… (more)

Subjects/Keywords: phase transition; thermochromic; photochromic; laser; vanadium dioxide; plasmon; nanostructure; nanoparticle; nanocomposite

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APA (6th Edition):

Ferrara, D. W. (2011). Plasmonic Interactions in Gold::Vanadium Dioxide Hybrid Nanostructures. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu/available/etd-04152011-161800/ ;

Chicago Manual of Style (16th Edition):

Ferrara, Davon Wayne. “Plasmonic Interactions in Gold::Vanadium Dioxide Hybrid Nanostructures.” 2011. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu/available/etd-04152011-161800/ ;.

MLA Handbook (7th Edition):

Ferrara, Davon Wayne. “Plasmonic Interactions in Gold::Vanadium Dioxide Hybrid Nanostructures.” 2011. Web. 23 Jan 2020.

Vancouver:

Ferrara DW. Plasmonic Interactions in Gold::Vanadium Dioxide Hybrid Nanostructures. [Internet] [Doctoral dissertation]. Vanderbilt University; 2011. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu/available/etd-04152011-161800/ ;.

Council of Science Editors:

Ferrara DW. Plasmonic Interactions in Gold::Vanadium Dioxide Hybrid Nanostructures. [Doctoral Dissertation]. Vanderbilt University; 2011. Available from: http://etd.library.vanderbilt.edu/available/etd-04152011-161800/ ;


Vanderbilt University

11. Nag, Joyeeta. The solid-solid phase transition in vanadium dioxide thin films: synthesis, physics and application.

Degree: PhD, Physics, 2011, Vanderbilt University

 THE SOLID-SOLID PHASE TRANSITION IN VANADIUM DIOXIDE THIN FILMS: SYNTHESIS, PHYSICS AND APPLICATION JOYEETA NAG DISSERTATION UNDER THE DIRECTION OF PROFESSOR RICHARD F. HAGLUND, JR.… (more)

Subjects/Keywords: optical modulator; doping; thin films; epitaxy; vanadium dioxide; phase transition; metal-insulator transition; hybrid modulator; ring resonator

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APA (6th Edition):

Nag, J. (2011). The solid-solid phase transition in vanadium dioxide thin films: synthesis, physics and application. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu/available/etd-04202011-182358/ ;

Chicago Manual of Style (16th Edition):

Nag, Joyeeta. “The solid-solid phase transition in vanadium dioxide thin films: synthesis, physics and application.” 2011. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu/available/etd-04202011-182358/ ;.

MLA Handbook (7th Edition):

Nag, Joyeeta. “The solid-solid phase transition in vanadium dioxide thin films: synthesis, physics and application.” 2011. Web. 23 Jan 2020.

Vancouver:

Nag J. The solid-solid phase transition in vanadium dioxide thin films: synthesis, physics and application. [Internet] [Doctoral dissertation]. Vanderbilt University; 2011. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu/available/etd-04202011-182358/ ;.

Council of Science Editors:

Nag J. The solid-solid phase transition in vanadium dioxide thin films: synthesis, physics and application. [Doctoral Dissertation]. Vanderbilt University; 2011. Available from: http://etd.library.vanderbilt.edu/available/etd-04202011-182358/ ;


Vanderbilt University

12. Fain, Joshua Stephen. Fabrication, Characterization, and Applications of Porous Silicon Metal-Oxide Nanocomposites.

Degree: PhD, Electrical Engineering, 2019, Vanderbilt University

 Anodically etched porous silicon, which is characterized by aligned cylindrical pores in a silicon matrix, is an attractive material for applications in optics, energy, electronics,… (more)

Subjects/Keywords: porous silicon; nickel oxide; metal oxide; supercapacitor; memristor; nanoparticles

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APA (6th Edition):

Fain, J. S. (2019). Fabrication, Characterization, and Applications of Porous Silicon Metal-Oxide Nanocomposites. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu/available/etd-03252019-031819/ ;

Chicago Manual of Style (16th Edition):

Fain, Joshua Stephen. “Fabrication, Characterization, and Applications of Porous Silicon Metal-Oxide Nanocomposites.” 2019. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu/available/etd-03252019-031819/ ;.

MLA Handbook (7th Edition):

Fain, Joshua Stephen. “Fabrication, Characterization, and Applications of Porous Silicon Metal-Oxide Nanocomposites.” 2019. Web. 23 Jan 2020.

Vancouver:

Fain JS. Fabrication, Characterization, and Applications of Porous Silicon Metal-Oxide Nanocomposites. [Internet] [Doctoral dissertation]. Vanderbilt University; 2019. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu/available/etd-03252019-031819/ ;.

Council of Science Editors:

Fain JS. Fabrication, Characterization, and Applications of Porous Silicon Metal-Oxide Nanocomposites. [Doctoral Dissertation]. Vanderbilt University; 2019. Available from: http://etd.library.vanderbilt.edu/available/etd-03252019-031819/ ;


Vanderbilt University

13. Gaur, Girija U. Quantum dot integrated silicon photonic devices for optical sensor applications.

Degree: PhD, Electrical Engineering, 2015, Vanderbilt University

 Optical sensors have been ubiquitous in laboratories for several decades for applications including healthcare diagnostics, personalized radiation safety badges, and space radiation dosimeters. However, there… (more)

Subjects/Keywords: silicon; porous; optical; radiation; biosensors; sensors; quantum dots

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APA (6th Edition):

Gaur, G. U. (2015). Quantum dot integrated silicon photonic devices for optical sensor applications. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu//available/etd-11172015-132918/ ;

Chicago Manual of Style (16th Edition):

Gaur, Girija U. “Quantum dot integrated silicon photonic devices for optical sensor applications.” 2015. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu//available/etd-11172015-132918/ ;.

MLA Handbook (7th Edition):

Gaur, Girija U. “Quantum dot integrated silicon photonic devices for optical sensor applications.” 2015. Web. 23 Jan 2020.

Vancouver:

Gaur GU. Quantum dot integrated silicon photonic devices for optical sensor applications. [Internet] [Doctoral dissertation]. Vanderbilt University; 2015. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu//available/etd-11172015-132918/ ;.

Council of Science Editors:

Gaur GU. Quantum dot integrated silicon photonic devices for optical sensor applications. [Doctoral Dissertation]. Vanderbilt University; 2015. Available from: http://etd.library.vanderbilt.edu//available/etd-11172015-132918/ ;


Vanderbilt University

14. Yang, Yuanmu. Resonant All-Dielectric Optical Metamaterials.

Degree: PhD, Interdisciplinary Materials Science, 2015, Vanderbilt University

 Absorption loss continues to be one of the primary impediments to the application of metal-based metamaterials at optical frequencies. Dielectric metamaterials offer one potential solution… (more)

Subjects/Keywords: nonlinear optics; dielectrics; metamaterial; zero index of refraction; material sciences

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APA (6th Edition):

Yang, Y. (2015). Resonant All-Dielectric Optical Metamaterials. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu//available/etd-06112015-172615/ ;

Chicago Manual of Style (16th Edition):

Yang, Yuanmu. “Resonant All-Dielectric Optical Metamaterials.” 2015. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu//available/etd-06112015-172615/ ;.

MLA Handbook (7th Edition):

Yang, Yuanmu. “Resonant All-Dielectric Optical Metamaterials.” 2015. Web. 23 Jan 2020.

Vancouver:

Yang Y. Resonant All-Dielectric Optical Metamaterials. [Internet] [Doctoral dissertation]. Vanderbilt University; 2015. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu//available/etd-06112015-172615/ ;.

Council of Science Editors:

Yang Y. Resonant All-Dielectric Optical Metamaterials. [Doctoral Dissertation]. Vanderbilt University; 2015. Available from: http://etd.library.vanderbilt.edu//available/etd-06112015-172615/ ;


Vanderbilt University

15. Beavers, Kelsey Ross. Engineering Porous Silicon Nanoparticles for Delivery of Peptide Nucleic Acid Therapeutics.

Degree: PhD, Interdisciplinary Materials Science, 2017, Vanderbilt University

 Researchers discovered the existence of non-coding RNA while unraveling the secrets of the human genome. Non-coding RNA molecules are never translated into proteins, yet they… (more)

Subjects/Keywords: drug delivery; porous silicon; nanoparticle; miRNA; peptide nucleic acid; anti-miRNA

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APA (6th Edition):

Beavers, K. R. (2017). Engineering Porous Silicon Nanoparticles for Delivery of Peptide Nucleic Acid Therapeutics. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu/available/etd-03242017-115848/ ;

Chicago Manual of Style (16th Edition):

Beavers, Kelsey Ross. “Engineering Porous Silicon Nanoparticles for Delivery of Peptide Nucleic Acid Therapeutics.” 2017. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu/available/etd-03242017-115848/ ;.

MLA Handbook (7th Edition):

Beavers, Kelsey Ross. “Engineering Porous Silicon Nanoparticles for Delivery of Peptide Nucleic Acid Therapeutics.” 2017. Web. 23 Jan 2020.

Vancouver:

Beavers KR. Engineering Porous Silicon Nanoparticles for Delivery of Peptide Nucleic Acid Therapeutics. [Internet] [Doctoral dissertation]. Vanderbilt University; 2017. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu/available/etd-03242017-115848/ ;.

Council of Science Editors:

Beavers KR. Engineering Porous Silicon Nanoparticles for Delivery of Peptide Nucleic Acid Therapeutics. [Doctoral Dissertation]. Vanderbilt University; 2017. Available from: http://etd.library.vanderbilt.edu/available/etd-03242017-115848/ ;

16. Qin, Kun. Slow Light Mach-Zehnder Interferometer for Optical Label-free Biosensing.

Degree: MS, Electrical Engineering, 2014, Vanderbilt University

 This work presents the design, fabrication, and characterization of a small footprint Mach-Zehnder interferometer (MZI) that possesses strong light-matter interaction. The demonstrated MZI structure is… (more)

Subjects/Keywords: Slow Light; Biosensing; Mach-Zehnder Interferometer; Photonics

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APA (6th Edition):

Qin, K. (2014). Slow Light Mach-Zehnder Interferometer for Optical Label-free Biosensing. (Masters Thesis). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu/available/etd-04082014-163020/ ;

Chicago Manual of Style (16th Edition):

Qin, Kun. “Slow Light Mach-Zehnder Interferometer for Optical Label-free Biosensing.” 2014. Masters Thesis, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu/available/etd-04082014-163020/ ;.

MLA Handbook (7th Edition):

Qin, Kun. “Slow Light Mach-Zehnder Interferometer for Optical Label-free Biosensing.” 2014. Web. 23 Jan 2020.

Vancouver:

Qin K. Slow Light Mach-Zehnder Interferometer for Optical Label-free Biosensing. [Internet] [Masters thesis]. Vanderbilt University; 2014. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu/available/etd-04082014-163020/ ;.

Council of Science Editors:

Qin K. Slow Light Mach-Zehnder Interferometer for Optical Label-free Biosensing. [Masters Thesis]. Vanderbilt University; 2014. Available from: http://etd.library.vanderbilt.edu/available/etd-04082014-163020/ ;

17. Deka, Suruj Sambhav. Memristance Phenomenon in TiO2-Porous Silicon Nanocomposites.

Degree: MS, Electrical Engineering, 2015, Vanderbilt University

 As feature sizes for semiconductor devices approach atomic dimensions, memory architectures such as DRAM and flash, encounter performance limitations due to increased effects from leakage… (more)

Subjects/Keywords: high power applications; macroscale; titanium dioxide; memristors; state retention; hysteresis; oxygen vacancies; ionic species; migration; porous silicon

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APA (6th Edition):

Deka, S. S. (2015). Memristance Phenomenon in TiO2-Porous Silicon Nanocomposites. (Masters Thesis). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu//available/etd-03232015-123729/ ;

Chicago Manual of Style (16th Edition):

Deka, Suruj Sambhav. “Memristance Phenomenon in TiO2-Porous Silicon Nanocomposites.” 2015. Masters Thesis, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu//available/etd-03232015-123729/ ;.

MLA Handbook (7th Edition):

Deka, Suruj Sambhav. “Memristance Phenomenon in TiO2-Porous Silicon Nanocomposites.” 2015. Web. 23 Jan 2020.

Vancouver:

Deka SS. Memristance Phenomenon in TiO2-Porous Silicon Nanocomposites. [Internet] [Masters thesis]. Vanderbilt University; 2015. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu//available/etd-03232015-123729/ ;.

Council of Science Editors:

Deka SS. Memristance Phenomenon in TiO2-Porous Silicon Nanocomposites. [Masters Thesis]. Vanderbilt University; 2015. Available from: http://etd.library.vanderbilt.edu//available/etd-03232015-123729/ ;

18. Harrell, Sarah-Ann Michelle. Bright White Light Emission of Ultrasmall Nanocrystals for Use in Solid State Lighting.

Degree: MS, Interdisciplinary Materials Science, 2013, Vanderbilt University

 White light-emitting diodes (LEDs) are the lighting of the future due to their potential energy savings and the proven success with monochromatic LEDs. However, white… (more)

Subjects/Keywords: solid state lighting; quantum dots; nanocrystals; white light; LED; formic acid; ultrasmall; CdSe

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APA (6th Edition):

Harrell, S. M. (2013). Bright White Light Emission of Ultrasmall Nanocrystals for Use in Solid State Lighting. (Masters Thesis). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu/available/etd-04102013-001325/ ;

Chicago Manual of Style (16th Edition):

Harrell, Sarah-Ann Michelle. “Bright White Light Emission of Ultrasmall Nanocrystals for Use in Solid State Lighting.” 2013. Masters Thesis, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu/available/etd-04102013-001325/ ;.

MLA Handbook (7th Edition):

Harrell, Sarah-Ann Michelle. “Bright White Light Emission of Ultrasmall Nanocrystals for Use in Solid State Lighting.” 2013. Web. 23 Jan 2020.

Vancouver:

Harrell SM. Bright White Light Emission of Ultrasmall Nanocrystals for Use in Solid State Lighting. [Internet] [Masters thesis]. Vanderbilt University; 2013. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu/available/etd-04102013-001325/ ;.

Council of Science Editors:

Harrell SM. Bright White Light Emission of Ultrasmall Nanocrystals for Use in Solid State Lighting. [Masters Thesis]. Vanderbilt University; 2013. Available from: http://etd.library.vanderbilt.edu/available/etd-04102013-001325/ ;

19. Bhandaru, Shweta. Material, Optical and Electro-optical Characterization of Si and Si-based Devices Under the Influence of High Energy Radiation.

Degree: PhD, Interdisciplinary Materials Science, 2015, Vanderbilt University

 Radiation effects studies performed on electronics typically consist of electrical characterization of device performance to analyze the impact of radiation damage. Very few studies have… (more)

Subjects/Keywords: High energy radiation effects; Thin oxide growth on Si; Si ring resonators; a-Si:H solar cells; porous a-Si:H

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APA (6th Edition):

Bhandaru, S. (2015). Material, Optical and Electro-optical Characterization of Si and Si-based Devices Under the Influence of High Energy Radiation. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu/available/etd-03232015-123555/ ;

Chicago Manual of Style (16th Edition):

Bhandaru, Shweta. “Material, Optical and Electro-optical Characterization of Si and Si-based Devices Under the Influence of High Energy Radiation.” 2015. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu/available/etd-03232015-123555/ ;.

MLA Handbook (7th Edition):

Bhandaru, Shweta. “Material, Optical and Electro-optical Characterization of Si and Si-based Devices Under the Influence of High Energy Radiation.” 2015. Web. 23 Jan 2020.

Vancouver:

Bhandaru S. Material, Optical and Electro-optical Characterization of Si and Si-based Devices Under the Influence of High Energy Radiation. [Internet] [Doctoral dissertation]. Vanderbilt University; 2015. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu/available/etd-03232015-123555/ ;.

Council of Science Editors:

Bhandaru S. Material, Optical and Electro-optical Characterization of Si and Si-based Devices Under the Influence of High Energy Radiation. [Doctoral Dissertation]. Vanderbilt University; 2015. Available from: http://etd.library.vanderbilt.edu/available/etd-03232015-123555/ ;

20. Li, Wei. Photothermal and Photoelectrical Energy Conversion in Plasmonic Nanostructures.

Degree: PhD, Mechanical Engineering, 2016, Vanderbilt University

 Surface plasmons, coherent oscillations of electrons in metals that can be excited with electromagnetic waves, are a key component in routing and manipulating light-matter interaction… (more)

Subjects/Keywords: photodetection; plasmonics; nanophotonics; surface plasmon; metamaterial; optoelectronics

…63 x 4.9. CPL detector with RH and LH elements patterned into the Vanderbilt University… 

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APA (6th Edition):

Li, W. (2016). Photothermal and Photoelectrical Energy Conversion in Plasmonic Nanostructures. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu/available/etd-03142016-150208/ ;

Chicago Manual of Style (16th Edition):

Li, Wei. “Photothermal and Photoelectrical Energy Conversion in Plasmonic Nanostructures.” 2016. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu/available/etd-03142016-150208/ ;.

MLA Handbook (7th Edition):

Li, Wei. “Photothermal and Photoelectrical Energy Conversion in Plasmonic Nanostructures.” 2016. Web. 23 Jan 2020.

Vancouver:

Li W. Photothermal and Photoelectrical Energy Conversion in Plasmonic Nanostructures. [Internet] [Doctoral dissertation]. Vanderbilt University; 2016. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu/available/etd-03142016-150208/ ;.

Council of Science Editors:

Li W. Photothermal and Photoelectrical Energy Conversion in Plasmonic Nanostructures. [Doctoral Dissertation]. Vanderbilt University; 2016. Available from: http://etd.library.vanderbilt.edu/available/etd-03142016-150208/ ;

21. Rong, Guoguang. Label-free Nanoscale Biosensing using a Porous Silicon Waveguide.

Degree: PhD, Electrical Engineering, 2008, Vanderbilt University

 The need to develop highly sensitive, selective, and cost-effective biosensors spans the areas of medicine, the environment, food safety, and homeland security. Accurate and reliable… (more)

Subjects/Keywords: Biosensors  – Design and construction; nanoscale; high sensitivity; label-free; optical; Porous silicon; Wave guides  – Design and construction

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APA (6th Edition):

Rong, G. (2008). Label-free Nanoscale Biosensing using a Porous Silicon Waveguide. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu/available/etd-08222008-141939/ ;

Chicago Manual of Style (16th Edition):

Rong, Guoguang. “Label-free Nanoscale Biosensing using a Porous Silicon Waveguide.” 2008. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu/available/etd-08222008-141939/ ;.

MLA Handbook (7th Edition):

Rong, Guoguang. “Label-free Nanoscale Biosensing using a Porous Silicon Waveguide.” 2008. Web. 23 Jan 2020.

Vancouver:

Rong G. Label-free Nanoscale Biosensing using a Porous Silicon Waveguide. [Internet] [Doctoral dissertation]. Vanderbilt University; 2008. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu/available/etd-08222008-141939/ ;.

Council of Science Editors:

Rong G. Label-free Nanoscale Biosensing using a Porous Silicon Waveguide. [Doctoral Dissertation]. Vanderbilt University; 2008. Available from: http://etd.library.vanderbilt.edu/available/etd-08222008-141939/ ;

22. Harrison, Melissa Ambre. Heterogeneously Alloyed Semiconductor Nanocrystals with Induced Chemical Composition Gradients.

Degree: PhD, Interdisciplinary Materials Science, 2012, Vanderbilt University

 Semiconductor nanocrystals of CdSSe exhibiting chemical composition gradients are synthesized via a facile, one-pot synthesis. Varying degrees of gradation are observed as growth temperatures are… (more)

Subjects/Keywords: crystal engineering; quantum dots; nanotechnology; alloy

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APA (6th Edition):

Harrison, M. A. (2012). Heterogeneously Alloyed Semiconductor Nanocrystals with Induced Chemical Composition Gradients. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu/available/etd-12062012-220642/ ;

Chicago Manual of Style (16th Edition):

Harrison, Melissa Ambre. “Heterogeneously Alloyed Semiconductor Nanocrystals with Induced Chemical Composition Gradients.” 2012. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu/available/etd-12062012-220642/ ;.

MLA Handbook (7th Edition):

Harrison, Melissa Ambre. “Heterogeneously Alloyed Semiconductor Nanocrystals with Induced Chemical Composition Gradients.” 2012. Web. 23 Jan 2020.

Vancouver:

Harrison MA. Heterogeneously Alloyed Semiconductor Nanocrystals with Induced Chemical Composition Gradients. [Internet] [Doctoral dissertation]. Vanderbilt University; 2012. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu/available/etd-12062012-220642/ ;.

Council of Science Editors:

Harrison MA. Heterogeneously Alloyed Semiconductor Nanocrystals with Induced Chemical Composition Gradients. [Doctoral Dissertation]. Vanderbilt University; 2012. Available from: http://etd.library.vanderbilt.edu/available/etd-12062012-220642/ ;

23. Lawrie, Jenifer Lynn. In situ DNA synthesis in porous silicon for biosensing applications.

Degree: PhD, Interdisciplinary Materials Science, 2012, Vanderbilt University

 A bottom up approach to functionalizing high quality porous silicon optical structures with nucleic acid bioreceptors is presented in this dissertation. The solid-phase synthesis method… (more)

Subjects/Keywords: porous silicon; biosensing

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APA (6th Edition):

Lawrie, J. L. (2012). In situ DNA synthesis in porous silicon for biosensing applications. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu/available/etd-09202012-055546/ ;

Chicago Manual of Style (16th Edition):

Lawrie, Jenifer Lynn. “In situ DNA synthesis in porous silicon for biosensing applications.” 2012. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu/available/etd-09202012-055546/ ;.

MLA Handbook (7th Edition):

Lawrie, Jenifer Lynn. “In situ DNA synthesis in porous silicon for biosensing applications.” 2012. Web. 23 Jan 2020.

Vancouver:

Lawrie JL. In situ DNA synthesis in porous silicon for biosensing applications. [Internet] [Doctoral dissertation]. Vanderbilt University; 2012. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu/available/etd-09202012-055546/ ;.

Council of Science Editors:

Lawrie JL. In situ DNA synthesis in porous silicon for biosensing applications. [Doctoral Dissertation]. Vanderbilt University; 2012. Available from: http://etd.library.vanderbilt.edu/available/etd-09202012-055546/ ;

24. Kang, Christopher. Multiple-Hole Defects: Optimizing Light-Matter Interaction in Photonic Crystal Cavities.

Degree: PhD, Interdisciplinary Materials Science, 2011, Vanderbilt University

 Silicon photonic crystal (PhC) cavities have attracted great interest recently due to their ability to highly confine light both spatially and temporally. The small mode… (more)

Subjects/Keywords: photonic crystal; sensor; photonics

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APA (6th Edition):

Kang, C. (2011). Multiple-Hole Defects: Optimizing Light-Matter Interaction in Photonic Crystal Cavities. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu/available/etd-07132011-211651/ ;

Chicago Manual of Style (16th Edition):

Kang, Christopher. “Multiple-Hole Defects: Optimizing Light-Matter Interaction in Photonic Crystal Cavities.” 2011. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu/available/etd-07132011-211651/ ;.

MLA Handbook (7th Edition):

Kang, Christopher. “Multiple-Hole Defects: Optimizing Light-Matter Interaction in Photonic Crystal Cavities.” 2011. Web. 23 Jan 2020.

Vancouver:

Kang C. Multiple-Hole Defects: Optimizing Light-Matter Interaction in Photonic Crystal Cavities. [Internet] [Doctoral dissertation]. Vanderbilt University; 2011. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu/available/etd-07132011-211651/ ;.

Council of Science Editors:

Kang C. Multiple-Hole Defects: Optimizing Light-Matter Interaction in Photonic Crystal Cavities. [Doctoral Dissertation]. Vanderbilt University; 2011. Available from: http://etd.library.vanderbilt.edu/available/etd-07132011-211651/ ;

25. Wei, Xing. Porous silicon waveguide biosensors with a grating coupler.

Degree: PhD, Electrical Engineering, 2012, Vanderbilt University

 Sensitive label-free optical biosensors based on grating-coupled porous silicon (PSi) waveguides are demonstrated for biosensing applications. This is the first time that the benefits of… (more)

Subjects/Keywords: gratings; optical biosensor; Porous silicon; waveguide

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APA (6th Edition):

Wei, X. (2012). Porous silicon waveguide biosensors with a grating coupler. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu/available/etd-03262012-231223/ ;

Chicago Manual of Style (16th Edition):

Wei, Xing. “Porous silicon waveguide biosensors with a grating coupler.” 2012. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu/available/etd-03262012-231223/ ;.

MLA Handbook (7th Edition):

Wei, Xing. “Porous silicon waveguide biosensors with a grating coupler.” 2012. Web. 23 Jan 2020.

Vancouver:

Wei X. Porous silicon waveguide biosensors with a grating coupler. [Internet] [Doctoral dissertation]. Vanderbilt University; 2012. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu/available/etd-03262012-231223/ ;.

Council of Science Editors:

Wei X. Porous silicon waveguide biosensors with a grating coupler. [Doctoral Dissertation]. Vanderbilt University; 2012. Available from: http://etd.library.vanderbilt.edu/available/etd-03262012-231223/ ;

26. Raina, Supil. Nanodiamond macroelectrodes and ultramicroelectrode arrays for bio-analyte detection.

Degree: PhD, Interdisciplinary Materials Science, 2011, Vanderbilt University

 Properties such as high electrical conductivity; chemical and electrochemical stability over a wide range of conditions; rapid electron transfer kinetics for different redox systems; and… (more)

Subjects/Keywords: fast scan cyclic voltammetry; diffusion; electrochemistry; dopamine; nanodiamond

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APA (6th Edition):

Raina, S. (2011). Nanodiamond macroelectrodes and ultramicroelectrode arrays for bio-analyte detection. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu//available/etd-11012011-163309/ ;

Chicago Manual of Style (16th Edition):

Raina, Supil. “Nanodiamond macroelectrodes and ultramicroelectrode arrays for bio-analyte detection.” 2011. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu//available/etd-11012011-163309/ ;.

MLA Handbook (7th Edition):

Raina, Supil. “Nanodiamond macroelectrodes and ultramicroelectrode arrays for bio-analyte detection.” 2011. Web. 23 Jan 2020.

Vancouver:

Raina S. Nanodiamond macroelectrodes and ultramicroelectrode arrays for bio-analyte detection. [Internet] [Doctoral dissertation]. Vanderbilt University; 2011. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu//available/etd-11012011-163309/ ;.

Council of Science Editors:

Raina S. Nanodiamond macroelectrodes and ultramicroelectrode arrays for bio-analyte detection. [Doctoral Dissertation]. Vanderbilt University; 2011. Available from: http://etd.library.vanderbilt.edu//available/etd-11012011-163309/ ;

27. Ryckman, Judson Douglas. Porous and phase change nanomaterials for photonic applications.

Degree: PhD, Electrical Engineering, 2013, Vanderbilt University

 The field of nanophotonics has emerged as a promising platform for applications ranging from communications and computing, to sensing, solar energy harvesting, biomedicine, and beyond.… (more)

Subjects/Keywords: cavity; vanadium dioxide; porous silicon; photonics; imprint; mode volume; slotted nanobeam

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APA (6th Edition):

Ryckman, J. D. (2013). Porous and phase change nanomaterials for photonic applications. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu/available/etd-04172013-221345/ ;

Chicago Manual of Style (16th Edition):

Ryckman, Judson Douglas. “Porous and phase change nanomaterials for photonic applications.” 2013. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu/available/etd-04172013-221345/ ;.

MLA Handbook (7th Edition):

Ryckman, Judson Douglas. “Porous and phase change nanomaterials for photonic applications.” 2013. Web. 23 Jan 2020.

Vancouver:

Ryckman JD. Porous and phase change nanomaterials for photonic applications. [Internet] [Doctoral dissertation]. Vanderbilt University; 2013. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu/available/etd-04172013-221345/ ;.

Council of Science Editors:

Ryckman JD. Porous and phase change nanomaterials for photonic applications. [Doctoral Dissertation]. Vanderbilt University; 2013. Available from: http://etd.library.vanderbilt.edu/available/etd-04172013-221345/ ;

28. Zhao, Yiliang. Engineering Porous Silicon Photonic Structures towards Fast and Reliable Optical Biosensing.

Degree: PhD, Interdisciplinary Materials Science, 2017, Vanderbilt University

 Porous silicon, a nanostructured material formed by electrochemical etching of a silicon substrate, is an ideal candidate for constructing optical biosensors due to its large… (more)

Subjects/Keywords: dna sensor; membrane; optical biosensor; porous silicon; flow-through; kinetics

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APA (6th Edition):

Zhao, Y. (2017). Engineering Porous Silicon Photonic Structures towards Fast and Reliable Optical Biosensing. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu/available/etd-03242017-124240/ ;

Chicago Manual of Style (16th Edition):

Zhao, Yiliang. “Engineering Porous Silicon Photonic Structures towards Fast and Reliable Optical Biosensing.” 2017. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu/available/etd-03242017-124240/ ;.

MLA Handbook (7th Edition):

Zhao, Yiliang. “Engineering Porous Silicon Photonic Structures towards Fast and Reliable Optical Biosensing.” 2017. Web. 23 Jan 2020.

Vancouver:

Zhao Y. Engineering Porous Silicon Photonic Structures towards Fast and Reliable Optical Biosensing. [Internet] [Doctoral dissertation]. Vanderbilt University; 2017. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu/available/etd-03242017-124240/ ;.

Council of Science Editors:

Zhao Y. Engineering Porous Silicon Photonic Structures towards Fast and Reliable Optical Biosensing. [Doctoral Dissertation]. Vanderbilt University; 2017. Available from: http://etd.library.vanderbilt.edu/available/etd-03242017-124240/ ;

29. Hong, Tu. Low-dimensional materials for optoelectronic and bioelectronic applications.

Degree: PhD, Electrical Engineering, 2017, Vanderbilt University

 The field of nanotechnology has witnessed amazing development in the past decade. In particular, studies of low-dimensional materials, including carbon nanotubes (CNTs), graphene, and other… (more)

Subjects/Keywords: photodetector; bioelectronic; optoelectronic; carbon nanotube; graphene; 2D material; biosensor

Sharon M. Weiss, Zhixian Zhou, and Ya-Qiong Xu, "Plasmonic Hot Electron Induced… 

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APA (6th Edition):

Hong, T. (2017). Low-dimensional materials for optoelectronic and bioelectronic applications. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu/available/etd-08012017-155039/ ;

Chicago Manual of Style (16th Edition):

Hong, Tu. “Low-dimensional materials for optoelectronic and bioelectronic applications.” 2017. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu/available/etd-08012017-155039/ ;.

MLA Handbook (7th Edition):

Hong, Tu. “Low-dimensional materials for optoelectronic and bioelectronic applications.” 2017. Web. 23 Jan 2020.

Vancouver:

Hong T. Low-dimensional materials for optoelectronic and bioelectronic applications. [Internet] [Doctoral dissertation]. Vanderbilt University; 2017. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu/available/etd-08012017-155039/ ;.

Council of Science Editors:

Hong T. Low-dimensional materials for optoelectronic and bioelectronic applications. [Doctoral Dissertation]. Vanderbilt University; 2017. Available from: http://etd.library.vanderbilt.edu/available/etd-08012017-155039/ ;

30. Jiao, Yang. A study of improved optical sensing performances based on nanoscale porous substrates.

Degree: PhD, Electrical Engineering, 2013, Vanderbilt University

 Nanoporous dielectric and metallic materials have recently attracted a great deal of attention for chemical and biological sensing applications. Compared to conventional solid material based… (more)

Subjects/Keywords: surface enhanced Raman scattering; Raman scattering; label-free; porous materials; optical biosensing

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APA (6th Edition):

Jiao, Y. (2013). A study of improved optical sensing performances based on nanoscale porous substrates. (Doctoral Dissertation). Vanderbilt University. Retrieved from http://etd.library.vanderbilt.edu/available/etd-01032013-114054/ ;

Chicago Manual of Style (16th Edition):

Jiao, Yang. “A study of improved optical sensing performances based on nanoscale porous substrates.” 2013. Doctoral Dissertation, Vanderbilt University. Accessed January 23, 2020. http://etd.library.vanderbilt.edu/available/etd-01032013-114054/ ;.

MLA Handbook (7th Edition):

Jiao, Yang. “A study of improved optical sensing performances based on nanoscale porous substrates.” 2013. Web. 23 Jan 2020.

Vancouver:

Jiao Y. A study of improved optical sensing performances based on nanoscale porous substrates. [Internet] [Doctoral dissertation]. Vanderbilt University; 2013. [cited 2020 Jan 23]. Available from: http://etd.library.vanderbilt.edu/available/etd-01032013-114054/ ;.

Council of Science Editors:

Jiao Y. A study of improved optical sensing performances based on nanoscale porous substrates. [Doctoral Dissertation]. Vanderbilt University; 2013. Available from: http://etd.library.vanderbilt.edu/available/etd-01032013-114054/ ;

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