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You searched for +publisher:"U of Massachusetts : PhD" +contributor:("Dimitrios Maroudas"). Showing records 1 – 8 of 8 total matches.

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1. Muniz, Andre R. Computational Analysis of Structural Transformations in Carbon Nanostructures Induced by Hydrogenation.

Degree: PhD, Chemical Engineering, 2011, U of Massachusetts : PhD

  Carbon nanomaterials, such as carbon nanotubes and graphene, have attracted significant interest over the past several years due to their outstanding and unusual combination… (more)

Subjects/Keywords: carbon allotropes; carbon nanotubes; fullerenes; graphene; hydrogenation; novel structures; Chemical Engineering

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APA (6th Edition):

Muniz, A. R. (2011). Computational Analysis of Structural Transformations in Carbon Nanostructures Induced by Hydrogenation. (Doctoral Dissertation). U of Massachusetts : PhD. Retrieved from https://scholarworks.umass.edu/open_access_dissertations/419

Chicago Manual of Style (16th Edition):

Muniz, Andre R. “Computational Analysis of Structural Transformations in Carbon Nanostructures Induced by Hydrogenation.” 2011. Doctoral Dissertation, U of Massachusetts : PhD. Accessed January 19, 2020. https://scholarworks.umass.edu/open_access_dissertations/419.

MLA Handbook (7th Edition):

Muniz, Andre R. “Computational Analysis of Structural Transformations in Carbon Nanostructures Induced by Hydrogenation.” 2011. Web. 19 Jan 2020.

Vancouver:

Muniz AR. Computational Analysis of Structural Transformations in Carbon Nanostructures Induced by Hydrogenation. [Internet] [Doctoral dissertation]. U of Massachusetts : PhD; 2011. [cited 2020 Jan 19]. Available from: https://scholarworks.umass.edu/open_access_dissertations/419.

Council of Science Editors:

Muniz AR. Computational Analysis of Structural Transformations in Carbon Nanostructures Induced by Hydrogenation. [Doctoral Dissertation]. U of Massachusetts : PhD; 2011. Available from: https://scholarworks.umass.edu/open_access_dissertations/419

2. Kuriyedath, Sreekumar R. Modeling and Simulation of Nanoparticle Formation in Microemulsion Droplets.

Degree: PhD, Chemical Engineering, 2011, U of Massachusetts : PhD

  Semiconductor nanocrystals, also known as quantum dots (QDs), are an important class of materials that are being extensively studied for a wide variety of… (more)

Subjects/Keywords: lattice monte-carlo; microemulsions; modeling; molecular simulation; nanoparticles; Quantum Dots; Chemical Engineering

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APA (6th Edition):

Kuriyedath, S. R. (2011). Modeling and Simulation of Nanoparticle Formation in Microemulsion Droplets. (Doctoral Dissertation). U of Massachusetts : PhD. Retrieved from https://scholarworks.umass.edu/open_access_dissertations/465

Chicago Manual of Style (16th Edition):

Kuriyedath, Sreekumar R. “Modeling and Simulation of Nanoparticle Formation in Microemulsion Droplets.” 2011. Doctoral Dissertation, U of Massachusetts : PhD. Accessed January 19, 2020. https://scholarworks.umass.edu/open_access_dissertations/465.

MLA Handbook (7th Edition):

Kuriyedath, Sreekumar R. “Modeling and Simulation of Nanoparticle Formation in Microemulsion Droplets.” 2011. Web. 19 Jan 2020.

Vancouver:

Kuriyedath SR. Modeling and Simulation of Nanoparticle Formation in Microemulsion Droplets. [Internet] [Doctoral dissertation]. U of Massachusetts : PhD; 2011. [cited 2020 Jan 19]. Available from: https://scholarworks.umass.edu/open_access_dissertations/465.

Council of Science Editors:

Kuriyedath SR. Modeling and Simulation of Nanoparticle Formation in Microemulsion Droplets. [Doctoral Dissertation]. U of Massachusetts : PhD; 2011. Available from: https://scholarworks.umass.edu/open_access_dissertations/465

3. Singh, Tejinder. Atomic-scale Modeling of Transition-metal Doping of Semiconductor Nanocrystals.

Degree: PhD, Chemical Engineering, 2011, U of Massachusetts : PhD

  Doping in bulk semiconductors (e.g., n- or p- type doping in silicon) allows for precise control of their properties and forms the basis for… (more)

Subjects/Keywords: cadmium selenide; colloidal synthesis; Density-functional theory; doping of semiconductor nanocrystals; zinc oxide; zinc selenide; Chemical Engineering

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APA (6th Edition):

Singh, T. (2011). Atomic-scale Modeling of Transition-metal Doping of Semiconductor Nanocrystals. (Doctoral Dissertation). U of Massachusetts : PhD. Retrieved from https://scholarworks.umass.edu/open_access_dissertations/356

Chicago Manual of Style (16th Edition):

Singh, Tejinder. “Atomic-scale Modeling of Transition-metal Doping of Semiconductor Nanocrystals.” 2011. Doctoral Dissertation, U of Massachusetts : PhD. Accessed January 19, 2020. https://scholarworks.umass.edu/open_access_dissertations/356.

MLA Handbook (7th Edition):

Singh, Tejinder. “Atomic-scale Modeling of Transition-metal Doping of Semiconductor Nanocrystals.” 2011. Web. 19 Jan 2020.

Vancouver:

Singh T. Atomic-scale Modeling of Transition-metal Doping of Semiconductor Nanocrystals. [Internet] [Doctoral dissertation]. U of Massachusetts : PhD; 2011. [cited 2020 Jan 19]. Available from: https://scholarworks.umass.edu/open_access_dissertations/356.

Council of Science Editors:

Singh T. Atomic-scale Modeling of Transition-metal Doping of Semiconductor Nanocrystals. [Doctoral Dissertation]. U of Massachusetts : PhD; 2011. Available from: https://scholarworks.umass.edu/open_access_dissertations/356

4. Hammond, Karl Daniel. Quantifying Defects in Zeolites and Zeolite Membranes.

Degree: PhD, Chemical Engineering, 2010, U of Massachusetts : PhD

  Zeolites are crystalline aluminosilicates that are frequently used as catalysts to transform chemical feedstocks into more useful materials in a size- or shape-selective fashion;… (more)

Subjects/Keywords: Adsorption; Diffusion; Nitrogen-Substituted; Spectroscopy; Zeolite; Zeolite Membrane; Chemical Engineering

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APA (6th Edition):

Hammond, K. D. (2010). Quantifying Defects in Zeolites and Zeolite Membranes. (Doctoral Dissertation). U of Massachusetts : PhD. Retrieved from https://scholarworks.umass.edu/open_access_dissertations/158

Chicago Manual of Style (16th Edition):

Hammond, Karl Daniel. “Quantifying Defects in Zeolites and Zeolite Membranes.” 2010. Doctoral Dissertation, U of Massachusetts : PhD. Accessed January 19, 2020. https://scholarworks.umass.edu/open_access_dissertations/158.

MLA Handbook (7th Edition):

Hammond, Karl Daniel. “Quantifying Defects in Zeolites and Zeolite Membranes.” 2010. Web. 19 Jan 2020.

Vancouver:

Hammond KD. Quantifying Defects in Zeolites and Zeolite Membranes. [Internet] [Doctoral dissertation]. U of Massachusetts : PhD; 2010. [cited 2020 Jan 19]. Available from: https://scholarworks.umass.edu/open_access_dissertations/158.

Council of Science Editors:

Hammond KD. Quantifying Defects in Zeolites and Zeolite Membranes. [Doctoral Dissertation]. U of Massachusetts : PhD; 2010. Available from: https://scholarworks.umass.edu/open_access_dissertations/158

5. Gopalakrishnan, Shivasubramanian. Modeling of Thermal Non-Equilibrium in Superheated Injector Flows.

Degree: PhD, Mechanical Engineering, 2010, U of Massachusetts : PhD

 Among the many factors that effect the atomization of a fuel spray in a com- bustion chamber, the flow characteristics of the fuel inside the… (more)

Subjects/Keywords: Computational Fluid Dynamics; Fluid Mechanics; Multiphase Flows; Mechanical Engineering

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APA (6th Edition):

Gopalakrishnan, S. (2010). Modeling of Thermal Non-Equilibrium in Superheated Injector Flows. (Doctoral Dissertation). U of Massachusetts : PhD. Retrieved from https://scholarworks.umass.edu/open_access_dissertations/185

Chicago Manual of Style (16th Edition):

Gopalakrishnan, Shivasubramanian. “Modeling of Thermal Non-Equilibrium in Superheated Injector Flows.” 2010. Doctoral Dissertation, U of Massachusetts : PhD. Accessed January 19, 2020. https://scholarworks.umass.edu/open_access_dissertations/185.

MLA Handbook (7th Edition):

Gopalakrishnan, Shivasubramanian. “Modeling of Thermal Non-Equilibrium in Superheated Injector Flows.” 2010. Web. 19 Jan 2020.

Vancouver:

Gopalakrishnan S. Modeling of Thermal Non-Equilibrium in Superheated Injector Flows. [Internet] [Doctoral dissertation]. U of Massachusetts : PhD; 2010. [cited 2020 Jan 19]. Available from: https://scholarworks.umass.edu/open_access_dissertations/185.

Council of Science Editors:

Gopalakrishnan S. Modeling of Thermal Non-Equilibrium in Superheated Injector Flows. [Doctoral Dissertation]. U of Massachusetts : PhD; 2010. Available from: https://scholarworks.umass.edu/open_access_dissertations/185

6. Verma, Anurag. Modeling the Free Energy Functional at the Fluid-Solid Transition in Classical Many-Particle Systems.

Degree: PhD, Chemical Engineering, 2012, U of Massachusetts : PhD

  The problem of phase equilibrium in colloidal and classical atomistic systems is of great interest in modern micro/nano fabrication and self-assembly processes. Systems with… (more)

Subjects/Keywords: Chemical Engineering

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APA (6th Edition):

Verma, A. (2012). Modeling the Free Energy Functional at the Fluid-Solid Transition in Classical Many-Particle Systems. (Doctoral Dissertation). U of Massachusetts : PhD. Retrieved from https://scholarworks.umass.edu/open_access_dissertations/527

Chicago Manual of Style (16th Edition):

Verma, Anurag. “Modeling the Free Energy Functional at the Fluid-Solid Transition in Classical Many-Particle Systems.” 2012. Doctoral Dissertation, U of Massachusetts : PhD. Accessed January 19, 2020. https://scholarworks.umass.edu/open_access_dissertations/527.

MLA Handbook (7th Edition):

Verma, Anurag. “Modeling the Free Energy Functional at the Fluid-Solid Transition in Classical Many-Particle Systems.” 2012. Web. 19 Jan 2020.

Vancouver:

Verma A. Modeling the Free Energy Functional at the Fluid-Solid Transition in Classical Many-Particle Systems. [Internet] [Doctoral dissertation]. U of Massachusetts : PhD; 2012. [cited 2020 Jan 19]. Available from: https://scholarworks.umass.edu/open_access_dissertations/527.

Council of Science Editors:

Verma A. Modeling the Free Energy Functional at the Fluid-Solid Transition in Classical Many-Particle Systems. [Doctoral Dissertation]. U of Massachusetts : PhD; 2012. Available from: https://scholarworks.umass.edu/open_access_dissertations/527

7. Smith, Kenneth D. Developing Reactive Molecular Dynamics for Understanding Polymer Chemical Kinetics.

Degree: PhD, Chemical Engineering, 2009, U of Massachusetts : PhD

  One of the challenges in understanding polymer flammability is the lack of information about microscopic events that lead to macroscopically observed species, and Reactive… (more)

Subjects/Keywords: Degradation; Fire-safe polymers; Kinetics; Polymers; Reactive forcefields; Reactive molecular dynamics; Chemical Engineering; Polymer Science

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APA (6th Edition):

Smith, K. D. (2009). Developing Reactive Molecular Dynamics for Understanding Polymer Chemical Kinetics. (Doctoral Dissertation). U of Massachusetts : PhD. Retrieved from https://scholarworks.umass.edu/open_access_dissertations/80

Chicago Manual of Style (16th Edition):

Smith, Kenneth D. “Developing Reactive Molecular Dynamics for Understanding Polymer Chemical Kinetics.” 2009. Doctoral Dissertation, U of Massachusetts : PhD. Accessed January 19, 2020. https://scholarworks.umass.edu/open_access_dissertations/80.

MLA Handbook (7th Edition):

Smith, Kenneth D. “Developing Reactive Molecular Dynamics for Understanding Polymer Chemical Kinetics.” 2009. Web. 19 Jan 2020.

Vancouver:

Smith KD. Developing Reactive Molecular Dynamics for Understanding Polymer Chemical Kinetics. [Internet] [Doctoral dissertation]. U of Massachusetts : PhD; 2009. [cited 2020 Jan 19]. Available from: https://scholarworks.umass.edu/open_access_dissertations/80.

Council of Science Editors:

Smith KD. Developing Reactive Molecular Dynamics for Understanding Polymer Chemical Kinetics. [Doctoral Dissertation]. U of Massachusetts : PhD; 2009. Available from: https://scholarworks.umass.edu/open_access_dissertations/80

8. Kolluri, Kedarnath. Atomic-Scale Analysis of Plastic Deformation in Thin-Film Forms of Electronic Materials.

Degree: PhD, Chemical Engineering, 2009, U of Massachusetts : PhD

  Nanometer-scale-thick films of metals and semiconductor heterostructures are used increasingly in modern technologies, from microelectronics to various areas of nanofabrication. Processing of such ultrathin-film… (more)

Subjects/Keywords: Dislocation depletion; Dislocation dynamics; Ultrathin metallic films; Plastic deformation; Electronic materials; Chemical Engineering; Materials Science and Engineering

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APA (6th Edition):

Kolluri, K. (2009). Atomic-Scale Analysis of Plastic Deformation in Thin-Film Forms of Electronic Materials. (Doctoral Dissertation). U of Massachusetts : PhD. Retrieved from https://scholarworks.umass.edu/open_access_dissertations/36

Chicago Manual of Style (16th Edition):

Kolluri, Kedarnath. “Atomic-Scale Analysis of Plastic Deformation in Thin-Film Forms of Electronic Materials.” 2009. Doctoral Dissertation, U of Massachusetts : PhD. Accessed January 19, 2020. https://scholarworks.umass.edu/open_access_dissertations/36.

MLA Handbook (7th Edition):

Kolluri, Kedarnath. “Atomic-Scale Analysis of Plastic Deformation in Thin-Film Forms of Electronic Materials.” 2009. Web. 19 Jan 2020.

Vancouver:

Kolluri K. Atomic-Scale Analysis of Plastic Deformation in Thin-Film Forms of Electronic Materials. [Internet] [Doctoral dissertation]. U of Massachusetts : PhD; 2009. [cited 2020 Jan 19]. Available from: https://scholarworks.umass.edu/open_access_dissertations/36.

Council of Science Editors:

Kolluri K. Atomic-Scale Analysis of Plastic Deformation in Thin-Film Forms of Electronic Materials. [Doctoral Dissertation]. U of Massachusetts : PhD; 2009. Available from: https://scholarworks.umass.edu/open_access_dissertations/36

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