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You searched for +publisher:"University of Notre Dame" +contributor:("Paul McGinn, Committee Member"). Showing records 1 – 15 of 15 total matches.

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University of Notre Dame

1. Timothy Lee Conrad. Characterization of Hydroxyapatite Whisker Reinforced Composites and Scaffolds for Mechanical and Biological Function in Orthopaedic and Spinal Implants</h1>.

Degree: PhD, Bioengineering, 2012, University of Notre Dame

  The overall objective of this study was to investigate the mechanical and biological properties of HA whisker reinforced polyaryletherketone (PAEK) composites and scaffolds which… (more)

Subjects/Keywords: polyetheretherketone; bone mimetic; porogen morphology; interbody spinal fusion cage; hydroxyapatite; composite scaffold

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APA (6th Edition):

Conrad, T. L. (2012). Characterization of Hydroxyapatite Whisker Reinforced Composites and Scaffolds for Mechanical and Biological Function in Orthopaedic and Spinal Implants</h1>. (Doctoral Dissertation). University of Notre Dame. Retrieved from https://curate.nd.edu/show/5q47rn31z9h

Chicago Manual of Style (16th Edition):

Conrad, Timothy Lee. “Characterization of Hydroxyapatite Whisker Reinforced Composites and Scaffolds for Mechanical and Biological Function in Orthopaedic and Spinal Implants</h1>.” 2012. Doctoral Dissertation, University of Notre Dame. Accessed November 18, 2019. https://curate.nd.edu/show/5q47rn31z9h.

MLA Handbook (7th Edition):

Conrad, Timothy Lee. “Characterization of Hydroxyapatite Whisker Reinforced Composites and Scaffolds for Mechanical and Biological Function in Orthopaedic and Spinal Implants</h1>.” 2012. Web. 18 Nov 2019.

Vancouver:

Conrad TL. Characterization of Hydroxyapatite Whisker Reinforced Composites and Scaffolds for Mechanical and Biological Function in Orthopaedic and Spinal Implants</h1>. [Internet] [Doctoral dissertation]. University of Notre Dame; 2012. [cited 2019 Nov 18]. Available from: https://curate.nd.edu/show/5q47rn31z9h.

Council of Science Editors:

Conrad TL. Characterization of Hydroxyapatite Whisker Reinforced Composites and Scaffolds for Mechanical and Biological Function in Orthopaedic and Spinal Implants</h1>. [Doctoral Dissertation]. University of Notre Dame; 2012. Available from: https://curate.nd.edu/show/5q47rn31z9h


University of Notre Dame

2. Tyler R. Jaramillo. Modeling and Optimization of a Friction Stir Extrusion Process Using Finite Element Methods</h1>.

Degree: MSin Mechanical Engineering, Aerospace and Mechanical Engineering, 2018, University of Notre Dame

  Friction stir extrusion (FSE) is a relatively new manufacturing process that allows for reduced cost production of metallic piping with a fine, equiaxed grain… (more)

Subjects/Keywords: Friction Stir Extrusion

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APA (6th Edition):

Jaramillo, T. R. (2018). Modeling and Optimization of a Friction Stir Extrusion Process Using Finite Element Methods</h1>. (Masters Thesis). University of Notre Dame. Retrieved from https://curate.nd.edu/show/mk61rf58z66

Chicago Manual of Style (16th Edition):

Jaramillo, Tyler R.. “Modeling and Optimization of a Friction Stir Extrusion Process Using Finite Element Methods</h1>.” 2018. Masters Thesis, University of Notre Dame. Accessed November 18, 2019. https://curate.nd.edu/show/mk61rf58z66.

MLA Handbook (7th Edition):

Jaramillo, Tyler R.. “Modeling and Optimization of a Friction Stir Extrusion Process Using Finite Element Methods</h1>.” 2018. Web. 18 Nov 2019.

Vancouver:

Jaramillo TR. Modeling and Optimization of a Friction Stir Extrusion Process Using Finite Element Methods</h1>. [Internet] [Masters thesis]. University of Notre Dame; 2018. [cited 2019 Nov 18]. Available from: https://curate.nd.edu/show/mk61rf58z66.

Council of Science Editors:

Jaramillo TR. Modeling and Optimization of a Friction Stir Extrusion Process Using Finite Element Methods</h1>. [Masters Thesis]. University of Notre Dame; 2018. Available from: https://curate.nd.edu/show/mk61rf58z66


University of Notre Dame

3. Hangyao Wang. Atomistic Studies of Oxidation Catalysis and Surface Poisoning on Transition Metal Oxide Surfaces</h1>.

Degree: PhD, Chemical Engineering, 2009, University of Notre Dame

  Base metal oxides have long been of interest as catalysts for oxidation of small molecules such as CO and NO. As an example, Ru… (more)

Subjects/Keywords: oxygen activation; first principles simulation; ruthenium dioxide; surface poisoning; transition state theory; micro-kinetic modeling; activation energy; catalyst deactivation; reaction mechanism; heterogeneous catalysis; reaction energy; NO oxidation; phase diagram; CO oxidation; density functional theory; catalytic oxidation; adsorption

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APA (6th Edition):

Wang, H. (2009). Atomistic Studies of Oxidation Catalysis and Surface Poisoning on Transition Metal Oxide Surfaces</h1>. (Doctoral Dissertation). University of Notre Dame. Retrieved from https://curate.nd.edu/show/j9601z42v4d

Chicago Manual of Style (16th Edition):

Wang, Hangyao. “Atomistic Studies of Oxidation Catalysis and Surface Poisoning on Transition Metal Oxide Surfaces</h1>.” 2009. Doctoral Dissertation, University of Notre Dame. Accessed November 18, 2019. https://curate.nd.edu/show/j9601z42v4d.

MLA Handbook (7th Edition):

Wang, Hangyao. “Atomistic Studies of Oxidation Catalysis and Surface Poisoning on Transition Metal Oxide Surfaces</h1>.” 2009. Web. 18 Nov 2019.

Vancouver:

Wang H. Atomistic Studies of Oxidation Catalysis and Surface Poisoning on Transition Metal Oxide Surfaces</h1>. [Internet] [Doctoral dissertation]. University of Notre Dame; 2009. [cited 2019 Nov 18]. Available from: https://curate.nd.edu/show/j9601z42v4d.

Council of Science Editors:

Wang H. Atomistic Studies of Oxidation Catalysis and Surface Poisoning on Transition Metal Oxide Surfaces</h1>. [Doctoral Dissertation]. University of Notre Dame; 2009. Available from: https://curate.nd.edu/show/j9601z42v4d


University of Notre Dame

4. Benjamin Highsmith Meekins. Controlling Interfacial Transfer Processes For Improved Photoelectrochemical Performance</h1>.

Degree: PhD, Chemical Engineering, 2012, University of Notre Dame

  As the Earth’s population continues to grow exponentially and become more technologically advanced, fossil fuel prices rise concurrently, a reflection of the diminishing resources… (more)

Subjects/Keywords: iridium oxide; water oxidation; solar; solar hydrogen generation; water reduction; TiO2; IrO2; solar cell; solar energy; water splitting; solar hydrogen; hydrogen; hydrogen generation; solar generation; titanium dioxide

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APA (6th Edition):

Meekins, B. H. (2012). Controlling Interfacial Transfer Processes For Improved Photoelectrochemical Performance</h1>. (Doctoral Dissertation). University of Notre Dame. Retrieved from https://curate.nd.edu/show/b2773t9673p

Chicago Manual of Style (16th Edition):

Meekins, Benjamin Highsmith. “Controlling Interfacial Transfer Processes For Improved Photoelectrochemical Performance</h1>.” 2012. Doctoral Dissertation, University of Notre Dame. Accessed November 18, 2019. https://curate.nd.edu/show/b2773t9673p.

MLA Handbook (7th Edition):

Meekins, Benjamin Highsmith. “Controlling Interfacial Transfer Processes For Improved Photoelectrochemical Performance</h1>.” 2012. Web. 18 Nov 2019.

Vancouver:

Meekins BH. Controlling Interfacial Transfer Processes For Improved Photoelectrochemical Performance</h1>. [Internet] [Doctoral dissertation]. University of Notre Dame; 2012. [cited 2019 Nov 18]. Available from: https://curate.nd.edu/show/b2773t9673p.

Council of Science Editors:

Meekins BH. Controlling Interfacial Transfer Processes For Improved Photoelectrochemical Performance</h1>. [Doctoral Dissertation]. University of Notre Dame; 2012. Available from: https://curate.nd.edu/show/b2773t9673p


University of Notre Dame

5. Michael W Penninger. Simulation of NO oxidation Catalysis on Perovskite Catalysts</h1>.

Degree: PhD, Chemical Engineering, 2015, University of Notre Dame

  Base metal oxides are of interest as low-cost replacements for Pt-based NO oxidation catalysts. While the mechanism of Pt-catalyzed NO oxidation is fairly well… (more)

Subjects/Keywords: Perovskites; NO oxidation; Screening; Catalysis; Sulfur

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APA (6th Edition):

Penninger, M. W. (2015). Simulation of NO oxidation Catalysis on Perovskite Catalysts</h1>. (Doctoral Dissertation). University of Notre Dame. Retrieved from https://curate.nd.edu/show/n296ww74n4g

Chicago Manual of Style (16th Edition):

Penninger, Michael W. “Simulation of NO oxidation Catalysis on Perovskite Catalysts</h1>.” 2015. Doctoral Dissertation, University of Notre Dame. Accessed November 18, 2019. https://curate.nd.edu/show/n296ww74n4g.

MLA Handbook (7th Edition):

Penninger, Michael W. “Simulation of NO oxidation Catalysis on Perovskite Catalysts</h1>.” 2015. Web. 18 Nov 2019.

Vancouver:

Penninger MW. Simulation of NO oxidation Catalysis on Perovskite Catalysts</h1>. [Internet] [Doctoral dissertation]. University of Notre Dame; 2015. [cited 2019 Nov 18]. Available from: https://curate.nd.edu/show/n296ww74n4g.

Council of Science Editors:

Penninger MW. Simulation of NO oxidation Catalysis on Perovskite Catalysts</h1>. [Doctoral Dissertation]. University of Notre Dame; 2015. Available from: https://curate.nd.edu/show/n296ww74n4g


University of Notre Dame

6. Christopher Eugene Shuck. Microstructure-reactivity Relationship for Gasless High-energy Density Materials</h1>.

Degree: PhD, Chemical and Biomolecular Engineering, 2017, University of Notre Dame

  Reactive nanocomposites (RNCs), comprised of stochastically layered metals, were fabricated using short-term high-energy ball milling (HEBM). By varying the milling conditions, the internal nanostructure… (more)

Subjects/Keywords: Combustion; Self-propagating high-temperature synthesis; Combustion Synthesis; Intermetallics; Mechanical Activation; Energy; Materials Science; 3D Reconstruction; Chemical Engineering; Carbides; Solid Flame

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APA (6th Edition):

Shuck, C. E. (2017). Microstructure-reactivity Relationship for Gasless High-energy Density Materials</h1>. (Doctoral Dissertation). University of Notre Dame. Retrieved from https://curate.nd.edu/show/sf268339n3v

Chicago Manual of Style (16th Edition):

Shuck, Christopher Eugene. “Microstructure-reactivity Relationship for Gasless High-energy Density Materials</h1>.” 2017. Doctoral Dissertation, University of Notre Dame. Accessed November 18, 2019. https://curate.nd.edu/show/sf268339n3v.

MLA Handbook (7th Edition):

Shuck, Christopher Eugene. “Microstructure-reactivity Relationship for Gasless High-energy Density Materials</h1>.” 2017. Web. 18 Nov 2019.

Vancouver:

Shuck CE. Microstructure-reactivity Relationship for Gasless High-energy Density Materials</h1>. [Internet] [Doctoral dissertation]. University of Notre Dame; 2017. [cited 2019 Nov 18]. Available from: https://curate.nd.edu/show/sf268339n3v.

Council of Science Editors:

Shuck CE. Microstructure-reactivity Relationship for Gasless High-energy Density Materials</h1>. [Doctoral Dissertation]. University of Notre Dame; 2017. Available from: https://curate.nd.edu/show/sf268339n3v


University of Notre Dame

7. Gregory Thomas Neumann. Tailoring the Active Site and Mesostructure of ZSM-5 for Deoxygenation and C-C Bond Coupling Reactions</h1>.

Degree: PhD, Chemical Engineering, 2015, University of Notre Dame

  Zeolites are a class of microporous, crystalline materials that have many applications as adsorbents, membranes, sensors, and catalysts. For use as a catalyst, zeolites… (more)

Subjects/Keywords: zeolite; biomass; cerium; ketonization; catalytic fast pyrolysis

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APA (6th Edition):

Neumann, G. T. (2015). Tailoring the Active Site and Mesostructure of ZSM-5 for Deoxygenation and C-C Bond Coupling Reactions</h1>. (Doctoral Dissertation). University of Notre Dame. Retrieved from https://curate.nd.edu/show/qn59q239x0d

Chicago Manual of Style (16th Edition):

Neumann, Gregory Thomas. “Tailoring the Active Site and Mesostructure of ZSM-5 for Deoxygenation and C-C Bond Coupling Reactions</h1>.” 2015. Doctoral Dissertation, University of Notre Dame. Accessed November 18, 2019. https://curate.nd.edu/show/qn59q239x0d.

MLA Handbook (7th Edition):

Neumann, Gregory Thomas. “Tailoring the Active Site and Mesostructure of ZSM-5 for Deoxygenation and C-C Bond Coupling Reactions</h1>.” 2015. Web. 18 Nov 2019.

Vancouver:

Neumann GT. Tailoring the Active Site and Mesostructure of ZSM-5 for Deoxygenation and C-C Bond Coupling Reactions</h1>. [Internet] [Doctoral dissertation]. University of Notre Dame; 2015. [cited 2019 Nov 18]. Available from: https://curate.nd.edu/show/qn59q239x0d.

Council of Science Editors:

Neumann GT. Tailoring the Active Site and Mesostructure of ZSM-5 for Deoxygenation and C-C Bond Coupling Reactions</h1>. [Doctoral Dissertation]. University of Notre Dame; 2015. Available from: https://curate.nd.edu/show/qn59q239x0d


University of Notre Dame

8. Brian Joseph Seger. Electrocatalytic and Photoelectrocatalytic Aspects of Proton Exchange Membrane Based Nanostructured Assemblies</h1>.

Degree: PhD, Chemical Engineering, 2009, University of Notre Dame

  Activity of electrocatalyst/support systems were analyzed in regards to proton exchange membrane fuel cells. Properties of a fuel cell membrane, Nafion, were investigated via… (more)

Subjects/Keywords: graphene; fuel cell; photochemistry; hydrogen; electrochemistry

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APA (6th Edition):

Seger, B. J. (2009). Electrocatalytic and Photoelectrocatalytic Aspects of Proton Exchange Membrane Based Nanostructured Assemblies</h1>. (Doctoral Dissertation). University of Notre Dame. Retrieved from https://curate.nd.edu/show/k6439z92b8r

Chicago Manual of Style (16th Edition):

Seger, Brian Joseph. “Electrocatalytic and Photoelectrocatalytic Aspects of Proton Exchange Membrane Based Nanostructured Assemblies</h1>.” 2009. Doctoral Dissertation, University of Notre Dame. Accessed November 18, 2019. https://curate.nd.edu/show/k6439z92b8r.

MLA Handbook (7th Edition):

Seger, Brian Joseph. “Electrocatalytic and Photoelectrocatalytic Aspects of Proton Exchange Membrane Based Nanostructured Assemblies</h1>.” 2009. Web. 18 Nov 2019.

Vancouver:

Seger BJ. Electrocatalytic and Photoelectrocatalytic Aspects of Proton Exchange Membrane Based Nanostructured Assemblies</h1>. [Internet] [Doctoral dissertation]. University of Notre Dame; 2009. [cited 2019 Nov 18]. Available from: https://curate.nd.edu/show/k6439z92b8r.

Council of Science Editors:

Seger BJ. Electrocatalytic and Photoelectrocatalytic Aspects of Proton Exchange Membrane Based Nanostructured Assemblies</h1>. [Doctoral Dissertation]. University of Notre Dame; 2009. Available from: https://curate.nd.edu/show/k6439z92b8r


University of Notre Dame

9. Javier Ernesto Guzman. Kinetics of Carbon/Carbon Composite Oxidation and Inhibition by Site Blockage</h1>.

Degree: MS, Chemical and Biomolecular Engineering, 2004, University of Notre Dame

  Carbon-Carbon composites exhibit excellent mechanical properties, especially at high temperatures. Unfortunately oxidation is a serious problem for these materials. Carbon materials can adsorb oxygen… (more)

Subjects/Keywords: Carbon oxidation; Carbon/Carbon composite; Inhibition; Kinetics of oxidation; Inhibition of oxidation; catalytic oxidation

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APA (6th Edition):

Guzman, J. E. (2004). Kinetics of Carbon/Carbon Composite Oxidation and Inhibition by Site Blockage</h1>. (Masters Thesis). University of Notre Dame. Retrieved from https://curate.nd.edu/show/6t053f4805n

Chicago Manual of Style (16th Edition):

Guzman, Javier Ernesto. “Kinetics of Carbon/Carbon Composite Oxidation and Inhibition by Site Blockage</h1>.” 2004. Masters Thesis, University of Notre Dame. Accessed November 18, 2019. https://curate.nd.edu/show/6t053f4805n.

MLA Handbook (7th Edition):

Guzman, Javier Ernesto. “Kinetics of Carbon/Carbon Composite Oxidation and Inhibition by Site Blockage</h1>.” 2004. Web. 18 Nov 2019.

Vancouver:

Guzman JE. Kinetics of Carbon/Carbon Composite Oxidation and Inhibition by Site Blockage</h1>. [Internet] [Masters thesis]. University of Notre Dame; 2004. [cited 2019 Nov 18]. Available from: https://curate.nd.edu/show/6t053f4805n.

Council of Science Editors:

Guzman JE. Kinetics of Carbon/Carbon Composite Oxidation and Inhibition by Site Blockage</h1>. [Masters Thesis]. University of Notre Dame; 2004. Available from: https://curate.nd.edu/show/6t053f4805n


University of Notre Dame

10. James Cooper. Combinatorial Screening of Fuel Cell Catalysts</h1>.

Degree: PhD, Chemical Engineering, 2007, University of Notre Dame

  Improved low temperature fuel cell catalyst compositions were pursued by constructing and screening thin film combinatorial libraries. The discrete composition combinatorial libraries were fabricated… (more)

Subjects/Keywords: cathode; fuel cell; membrane; catalyst; methanol; direct; exchange; anode; high throughput; proton

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APA (6th Edition):

Cooper, J. (2007). Combinatorial Screening of Fuel Cell Catalysts</h1>. (Doctoral Dissertation). University of Notre Dame. Retrieved from https://curate.nd.edu/show/4q77fq9948h

Chicago Manual of Style (16th Edition):

Cooper, James. “Combinatorial Screening of Fuel Cell Catalysts</h1>.” 2007. Doctoral Dissertation, University of Notre Dame. Accessed November 18, 2019. https://curate.nd.edu/show/4q77fq9948h.

MLA Handbook (7th Edition):

Cooper, James. “Combinatorial Screening of Fuel Cell Catalysts</h1>.” 2007. Web. 18 Nov 2019.

Vancouver:

Cooper J. Combinatorial Screening of Fuel Cell Catalysts</h1>. [Internet] [Doctoral dissertation]. University of Notre Dame; 2007. [cited 2019 Nov 18]. Available from: https://curate.nd.edu/show/4q77fq9948h.

Council of Science Editors:

Cooper J. Combinatorial Screening of Fuel Cell Catalysts</h1>. [Doctoral Dissertation]. University of Notre Dame; 2007. Available from: https://curate.nd.edu/show/4q77fq9948h


University of Notre Dame

11. Karrie-Ann Kubatko. Crystallography, Hierarchy of Crystal Structures and Chemical Thermodynamics of Select Uranyl Phases</h1>.

Degree: PhD, Civil Engineering and Geological Sciences, 2005, University of Notre Dame

  Over 200 minerals contain uranium as an essential structural constituent. Uranyl minerals, which contain U6+, are significant for understanding the genesis of uranium deposits,… (more)

Subjects/Keywords: crystallography; uranyl; calorimetry; thermodynamics; uranyl peroxides; uranium; crystal chemistry; X-ray diffraction; thermo chemistry; enthalpy

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APA (6th Edition):

Kubatko, K. (2005). Crystallography, Hierarchy of Crystal Structures and Chemical Thermodynamics of Select Uranyl Phases</h1>. (Doctoral Dissertation). University of Notre Dame. Retrieved from https://curate.nd.edu/show/xg94hm53c5v

Chicago Manual of Style (16th Edition):

Kubatko, Karrie-Ann. “Crystallography, Hierarchy of Crystal Structures and Chemical Thermodynamics of Select Uranyl Phases</h1>.” 2005. Doctoral Dissertation, University of Notre Dame. Accessed November 18, 2019. https://curate.nd.edu/show/xg94hm53c5v.

MLA Handbook (7th Edition):

Kubatko, Karrie-Ann. “Crystallography, Hierarchy of Crystal Structures and Chemical Thermodynamics of Select Uranyl Phases</h1>.” 2005. Web. 18 Nov 2019.

Vancouver:

Kubatko K. Crystallography, Hierarchy of Crystal Structures and Chemical Thermodynamics of Select Uranyl Phases</h1>. [Internet] [Doctoral dissertation]. University of Notre Dame; 2005. [cited 2019 Nov 18]. Available from: https://curate.nd.edu/show/xg94hm53c5v.

Council of Science Editors:

Kubatko K. Crystallography, Hierarchy of Crystal Structures and Chemical Thermodynamics of Select Uranyl Phases</h1>. [Doctoral Dissertation]. University of Notre Dame; 2005. Available from: https://curate.nd.edu/show/xg94hm53c5v


University of Notre Dame

12. Stephen J Schuyten. Activity and In-Situ Xas Studies of Promoted Copper and Zinc Oxide Catalysts for Hydrogen Production by Methanol Partial Oxidation</h1>.

Degree: PhD, Chemical Engineering, 2008, University of Notre Dame

  A three step high throughput catalytic screening process was used to evaluate the activity and selectivity of copper and zinc based methanol partial oxidation… (more)

Subjects/Keywords: methanol reforming; palladium; partial oxidation; copper

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APA (6th Edition):

Schuyten, S. J. (2008). Activity and In-Situ Xas Studies of Promoted Copper and Zinc Oxide Catalysts for Hydrogen Production by Methanol Partial Oxidation</h1>. (Doctoral Dissertation). University of Notre Dame. Retrieved from https://curate.nd.edu/show/2v23vt16t5r

Chicago Manual of Style (16th Edition):

Schuyten, Stephen J. “Activity and In-Situ Xas Studies of Promoted Copper and Zinc Oxide Catalysts for Hydrogen Production by Methanol Partial Oxidation</h1>.” 2008. Doctoral Dissertation, University of Notre Dame. Accessed November 18, 2019. https://curate.nd.edu/show/2v23vt16t5r.

MLA Handbook (7th Edition):

Schuyten, Stephen J. “Activity and In-Situ Xas Studies of Promoted Copper and Zinc Oxide Catalysts for Hydrogen Production by Methanol Partial Oxidation</h1>.” 2008. Web. 18 Nov 2019.

Vancouver:

Schuyten SJ. Activity and In-Situ Xas Studies of Promoted Copper and Zinc Oxide Catalysts for Hydrogen Production by Methanol Partial Oxidation</h1>. [Internet] [Doctoral dissertation]. University of Notre Dame; 2008. [cited 2019 Nov 18]. Available from: https://curate.nd.edu/show/2v23vt16t5r.

Council of Science Editors:

Schuyten SJ. Activity and In-Situ Xas Studies of Promoted Copper and Zinc Oxide Catalysts for Hydrogen Production by Methanol Partial Oxidation</h1>. [Doctoral Dissertation]. University of Notre Dame; 2008. Available from: https://curate.nd.edu/show/2v23vt16t5r


University of Notre Dame

13. Andrew John Locock. Crystal Chemistry of Uranyl Phosphates, Arsenates and Oxysalts of Chromium(V): Implications for Remediation</h1>.

Degree: PhD, Civil and Environmental Engineering and Earth Sciences, 2004, University of Notre Dame

  The chain of events involved in the production and use of uranium for power generation and defensive purposes has serious environmental consequences. Study of… (more)

Subjects/Keywords: crystal structure analysis; uranium phosphate; uranium arsenate; uranium chromate; crystal chemistry

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APA (6th Edition):

Locock, A. J. (2004). Crystal Chemistry of Uranyl Phosphates, Arsenates and Oxysalts of Chromium(V): Implications for Remediation</h1>. (Doctoral Dissertation). University of Notre Dame. Retrieved from https://curate.nd.edu/show/xg94hm53d24

Chicago Manual of Style (16th Edition):

Locock, Andrew John. “Crystal Chemistry of Uranyl Phosphates, Arsenates and Oxysalts of Chromium(V): Implications for Remediation</h1>.” 2004. Doctoral Dissertation, University of Notre Dame. Accessed November 18, 2019. https://curate.nd.edu/show/xg94hm53d24.

MLA Handbook (7th Edition):

Locock, Andrew John. “Crystal Chemistry of Uranyl Phosphates, Arsenates and Oxysalts of Chromium(V): Implications for Remediation</h1>.” 2004. Web. 18 Nov 2019.

Vancouver:

Locock AJ. Crystal Chemistry of Uranyl Phosphates, Arsenates and Oxysalts of Chromium(V): Implications for Remediation</h1>. [Internet] [Doctoral dissertation]. University of Notre Dame; 2004. [cited 2019 Nov 18]. Available from: https://curate.nd.edu/show/xg94hm53d24.

Council of Science Editors:

Locock AJ. Crystal Chemistry of Uranyl Phosphates, Arsenates and Oxysalts of Chromium(V): Implications for Remediation</h1>. [Doctoral Dissertation]. University of Notre Dame; 2004. Available from: https://curate.nd.edu/show/xg94hm53d24


University of Notre Dame

14. Ping Wang. Electrokinetic Pumping and Spraying at Microano Level</h1>.

Degree: PhD, Chemical Engineering, 2007, University of Notre Dame

  This thesis addresses electrokinetic phenomena at microano level for potential microfluidic applications. Two kinds of electrokinetic objects: electroosmosis and electrospray under both DC and… (more)

Subjects/Keywords: electroosmosis; electrokinetic; electrospray

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APA (6th Edition):

Wang, P. (2007). Electrokinetic Pumping and Spraying at Microano Level</h1>. (Doctoral Dissertation). University of Notre Dame. Retrieved from https://curate.nd.edu/show/x920ft86v4p

Chicago Manual of Style (16th Edition):

Wang, Ping. “Electrokinetic Pumping and Spraying at Microano Level</h1>.” 2007. Doctoral Dissertation, University of Notre Dame. Accessed November 18, 2019. https://curate.nd.edu/show/x920ft86v4p.

MLA Handbook (7th Edition):

Wang, Ping. “Electrokinetic Pumping and Spraying at Microano Level</h1>.” 2007. Web. 18 Nov 2019.

Vancouver:

Wang P. Electrokinetic Pumping and Spraying at Microano Level</h1>. [Internet] [Doctoral dissertation]. University of Notre Dame; 2007. [cited 2019 Nov 18]. Available from: https://curate.nd.edu/show/x920ft86v4p.

Council of Science Editors:

Wang P. Electrokinetic Pumping and Spraying at Microano Level</h1>. [Doctoral Dissertation]. University of Notre Dame; 2007. Available from: https://curate.nd.edu/show/x920ft86v4p


University of Notre Dame

15. Kishori T Deshpande. Nanoscale Advanced Materials Using Aqueous Combustion Synthesis</h1>.

Degree: PhD, Chemical Engineering, 2005, University of Notre Dame

  Nanoscale materials are of importance in a number of areas, including fuel cells, catalysis and ferrofluids. In particular, for direct methanol fuel cells, Pt-based… (more)

Subjects/Keywords: Advanced materials; aqueous combustion synthesis; nanopowders; solid oxide fuel cells; iron oxide; direct methanol fuel cells

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APA (6th Edition):

Deshpande, K. T. (2005). Nanoscale Advanced Materials Using Aqueous Combustion Synthesis</h1>. (Doctoral Dissertation). University of Notre Dame. Retrieved from https://curate.nd.edu/show/td96k071q3v

Chicago Manual of Style (16th Edition):

Deshpande, Kishori T. “Nanoscale Advanced Materials Using Aqueous Combustion Synthesis</h1>.” 2005. Doctoral Dissertation, University of Notre Dame. Accessed November 18, 2019. https://curate.nd.edu/show/td96k071q3v.

MLA Handbook (7th Edition):

Deshpande, Kishori T. “Nanoscale Advanced Materials Using Aqueous Combustion Synthesis</h1>.” 2005. Web. 18 Nov 2019.

Vancouver:

Deshpande KT. Nanoscale Advanced Materials Using Aqueous Combustion Synthesis</h1>. [Internet] [Doctoral dissertation]. University of Notre Dame; 2005. [cited 2019 Nov 18]. Available from: https://curate.nd.edu/show/td96k071q3v.

Council of Science Editors:

Deshpande KT. Nanoscale Advanced Materials Using Aqueous Combustion Synthesis</h1>. [Doctoral Dissertation]. University of Notre Dame; 2005. Available from: https://curate.nd.edu/show/td96k071q3v

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