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You searched for +publisher:"University of Notre Dame" +contributor:("Slavi Sevov, Committee Member"). Showing records 1 – 9 of 9 total matches.

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University of Notre Dame

1. Jeffrey William Pavlik. Investigations of Diatomic Heme Ligands. Part I: Nuclear Resonance Vibrational Spectroscopy of Nitrosyl Iron Porphyrinates. Part II: The Characterization of Hydrosulfido Heme Models</h1>.

Degree: PhD, Chemistry and Biochemistry, 2011, University of Notre Dame

  PART I: The underlying biological phenomena for this work is small molecule signaling in heme-protein systems. A new method for single crystal Nuclear Resonance… (more)

Subjects/Keywords: diatomic ligands; heme; hydrosulfide; Nitrosyl; signaling; hydrogen sulfide; gasotransmitters

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APA (6th Edition):

Pavlik, J. W. (2011). Investigations of Diatomic Heme Ligands. Part I: Nuclear Resonance Vibrational Spectroscopy of Nitrosyl Iron Porphyrinates. Part II: The Characterization of Hydrosulfido Heme Models</h1>. (Doctoral Dissertation). University of Notre Dame. Retrieved from https://curate.nd.edu/show/1n79h417g69

Chicago Manual of Style (16th Edition):

Pavlik, Jeffrey William. “Investigations of Diatomic Heme Ligands. Part I: Nuclear Resonance Vibrational Spectroscopy of Nitrosyl Iron Porphyrinates. Part II: The Characterization of Hydrosulfido Heme Models</h1>.” 2011. Doctoral Dissertation, University of Notre Dame. Accessed June 19, 2019. https://curate.nd.edu/show/1n79h417g69.

MLA Handbook (7th Edition):

Pavlik, Jeffrey William. “Investigations of Diatomic Heme Ligands. Part I: Nuclear Resonance Vibrational Spectroscopy of Nitrosyl Iron Porphyrinates. Part II: The Characterization of Hydrosulfido Heme Models</h1>.” 2011. Web. 19 Jun 2019.

Vancouver:

Pavlik JW. Investigations of Diatomic Heme Ligands. Part I: Nuclear Resonance Vibrational Spectroscopy of Nitrosyl Iron Porphyrinates. Part II: The Characterization of Hydrosulfido Heme Models</h1>. [Internet] [Doctoral dissertation]. University of Notre Dame; 2011. [cited 2019 Jun 19]. Available from: https://curate.nd.edu/show/1n79h417g69.

Council of Science Editors:

Pavlik JW. Investigations of Diatomic Heme Ligands. Part I: Nuclear Resonance Vibrational Spectroscopy of Nitrosyl Iron Porphyrinates. Part II: The Characterization of Hydrosulfido Heme Models</h1>. [Doctoral Dissertation]. University of Notre Dame; 2011. Available from: https://curate.nd.edu/show/1n79h417g69


University of Notre Dame

2. Sachidananda Krishnamurthy. Graphene Based Assemblies: Electron Transfer Processes and Energy Conversion Applications</h1>.

Degree: PhD, Chemistry and Biochemistry, 2014, University of Notre Dame

  Nanomaterials with their unique properties allow for attractive applications in devices. Composite assemblage of nanomaterials offers great prospects of multiple functional components to be… (more)

Subjects/Keywords: photocatalysis; metal nanoparticles; semiconductors; quantum dots; energy conversion; graphene

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APA (6th Edition):

Krishnamurthy, S. (2014). Graphene Based Assemblies: Electron Transfer Processes and Energy Conversion Applications</h1>. (Doctoral Dissertation). University of Notre Dame. Retrieved from https://curate.nd.edu/show/sx61dj55b25

Chicago Manual of Style (16th Edition):

Krishnamurthy, Sachidananda. “Graphene Based Assemblies: Electron Transfer Processes and Energy Conversion Applications</h1>.” 2014. Doctoral Dissertation, University of Notre Dame. Accessed June 19, 2019. https://curate.nd.edu/show/sx61dj55b25.

MLA Handbook (7th Edition):

Krishnamurthy, Sachidananda. “Graphene Based Assemblies: Electron Transfer Processes and Energy Conversion Applications</h1>.” 2014. Web. 19 Jun 2019.

Vancouver:

Krishnamurthy S. Graphene Based Assemblies: Electron Transfer Processes and Energy Conversion Applications</h1>. [Internet] [Doctoral dissertation]. University of Notre Dame; 2014. [cited 2019 Jun 19]. Available from: https://curate.nd.edu/show/sx61dj55b25.

Council of Science Editors:

Krishnamurthy S. Graphene Based Assemblies: Electron Transfer Processes and Energy Conversion Applications</h1>. [Doctoral Dissertation]. University of Notre Dame; 2014. Available from: https://curate.nd.edu/show/sx61dj55b25


University of Notre Dame

3. Nancy Elaine Roback. Crystal Chemistry of Uranyl Sulfates and Oxalates and Perrhenate Incorporation into Uranyl Phases</h1>.

Degree: MS, Chemistry and Biochemistry, 2009, University of Notre Dame

  The understanding of uranium chemistry is of increasing importance in the search for clean, renewable energy. Nuclear power can produce energy with no greenhouse… (more)

Subjects/Keywords: technetium; sulfate; uranium; perrhenate; crystal chemistry; nuclear waste; oxalate; pertechnetate; rhenium; inorganic; chemistry; uranyl

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APA (6th Edition):

Roback, N. E. (2009). Crystal Chemistry of Uranyl Sulfates and Oxalates and Perrhenate Incorporation into Uranyl Phases</h1>. (Masters Thesis). University of Notre Dame. Retrieved from https://curate.nd.edu/show/hx11xd09p9j

Chicago Manual of Style (16th Edition):

Roback, Nancy Elaine. “Crystal Chemistry of Uranyl Sulfates and Oxalates and Perrhenate Incorporation into Uranyl Phases</h1>.” 2009. Masters Thesis, University of Notre Dame. Accessed June 19, 2019. https://curate.nd.edu/show/hx11xd09p9j.

MLA Handbook (7th Edition):

Roback, Nancy Elaine. “Crystal Chemistry of Uranyl Sulfates and Oxalates and Perrhenate Incorporation into Uranyl Phases</h1>.” 2009. Web. 19 Jun 2019.

Vancouver:

Roback NE. Crystal Chemistry of Uranyl Sulfates and Oxalates and Perrhenate Incorporation into Uranyl Phases</h1>. [Internet] [Masters thesis]. University of Notre Dame; 2009. [cited 2019 Jun 19]. Available from: https://curate.nd.edu/show/hx11xd09p9j.

Council of Science Editors:

Roback NE. Crystal Chemistry of Uranyl Sulfates and Oxalates and Perrhenate Incorporation into Uranyl Phases</h1>. [Masters Thesis]. University of Notre Dame; 2009. Available from: https://curate.nd.edu/show/hx11xd09p9j


University of Notre Dame

4. Jeremy A. Eberle. Development of Novel Magnesium, Zinc, and Aluminum Organometallic Catalysts for the Copolymerization of CO2 and Epoxides</h1>.

Degree: PhD, Chemistry and Biochemistry, 2018, University of Notre Dame

  The aim of this dissertation is to describe the synthesis, characterization, and catalytic performance in the copolymerization of CO2 and cyclohexene oxide of various… (more)

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APA (6th Edition):

Eberle, J. A. (2018). Development of Novel Magnesium, Zinc, and Aluminum Organometallic Catalysts for the Copolymerization of CO2 and Epoxides</h1>. (Doctoral Dissertation). University of Notre Dame. Retrieved from https://curate.nd.edu/show/1z40ks68194

Chicago Manual of Style (16th Edition):

Eberle, Jeremy A.. “Development of Novel Magnesium, Zinc, and Aluminum Organometallic Catalysts for the Copolymerization of CO2 and Epoxides</h1>.” 2018. Doctoral Dissertation, University of Notre Dame. Accessed June 19, 2019. https://curate.nd.edu/show/1z40ks68194.

MLA Handbook (7th Edition):

Eberle, Jeremy A.. “Development of Novel Magnesium, Zinc, and Aluminum Organometallic Catalysts for the Copolymerization of CO2 and Epoxides</h1>.” 2018. Web. 19 Jun 2019.

Vancouver:

Eberle JA. Development of Novel Magnesium, Zinc, and Aluminum Organometallic Catalysts for the Copolymerization of CO2 and Epoxides</h1>. [Internet] [Doctoral dissertation]. University of Notre Dame; 2018. [cited 2019 Jun 19]. Available from: https://curate.nd.edu/show/1z40ks68194.

Council of Science Editors:

Eberle JA. Development of Novel Magnesium, Zinc, and Aluminum Organometallic Catalysts for the Copolymerization of CO2 and Epoxides</h1>. [Doctoral Dissertation]. University of Notre Dame; 2018. Available from: https://curate.nd.edu/show/1z40ks68194


University of Notre Dame

5. Michelle A. Pillers. Nanostructures as Dopant Sources: Maskless Nanoscale Patterning of Silicon Using Shape and Size Controlled Nanomaterials</h1>.

Degree: PhD, Chemistry and Biochemistry, 2017, University of Notre Dame

  As miniaturization of electronic components continues, creative solutions for common manufacturing problems are required to continue the trend of “Moore’s Law.” Mask alignment for… (more)

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APA (6th Edition):

Pillers, M. A. (2017). Nanostructures as Dopant Sources: Maskless Nanoscale Patterning of Silicon Using Shape and Size Controlled Nanomaterials</h1>. (Doctoral Dissertation). University of Notre Dame. Retrieved from https://curate.nd.edu/show/1544bp01s71

Chicago Manual of Style (16th Edition):

Pillers, Michelle A.. “Nanostructures as Dopant Sources: Maskless Nanoscale Patterning of Silicon Using Shape and Size Controlled Nanomaterials</h1>.” 2017. Doctoral Dissertation, University of Notre Dame. Accessed June 19, 2019. https://curate.nd.edu/show/1544bp01s71.

MLA Handbook (7th Edition):

Pillers, Michelle A.. “Nanostructures as Dopant Sources: Maskless Nanoscale Patterning of Silicon Using Shape and Size Controlled Nanomaterials</h1>.” 2017. Web. 19 Jun 2019.

Vancouver:

Pillers MA. Nanostructures as Dopant Sources: Maskless Nanoscale Patterning of Silicon Using Shape and Size Controlled Nanomaterials</h1>. [Internet] [Doctoral dissertation]. University of Notre Dame; 2017. [cited 2019 Jun 19]. Available from: https://curate.nd.edu/show/1544bp01s71.

Council of Science Editors:

Pillers MA. Nanostructures as Dopant Sources: Maskless Nanoscale Patterning of Silicon Using Shape and Size Controlled Nanomaterials</h1>. [Doctoral Dissertation]. University of Notre Dame; 2017. Available from: https://curate.nd.edu/show/1544bp01s71


University of Notre Dame

6. Katherine Leigh Hull. Advances in Geminal Organodimetallics: Synthesis, Structural Characterization, and Reactivity</h1>.

Degree: PhD, Chemistry and Biochemistry, 2009, University of Notre Dame

  The geminal organodimetallic complexes [{{Ph2P(Me3Si)N}2C}2M4], L2M4, where M4 = Na4; Li2Na2; LiNa3; Li2K2; Na2K2; Na3K, have been prepared through a variety of methods including:… (more)

Subjects/Keywords: organolithium; ion pair; gem-dimetallic; main group; organometallic; carbanion

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APA (6th Edition):

Hull, K. L. (2009). Advances in Geminal Organodimetallics: Synthesis, Structural Characterization, and Reactivity</h1>. (Doctoral Dissertation). University of Notre Dame. Retrieved from https://curate.nd.edu/show/3484zg66q03

Chicago Manual of Style (16th Edition):

Hull, Katherine Leigh. “Advances in Geminal Organodimetallics: Synthesis, Structural Characterization, and Reactivity</h1>.” 2009. Doctoral Dissertation, University of Notre Dame. Accessed June 19, 2019. https://curate.nd.edu/show/3484zg66q03.

MLA Handbook (7th Edition):

Hull, Katherine Leigh. “Advances in Geminal Organodimetallics: Synthesis, Structural Characterization, and Reactivity</h1>.” 2009. Web. 19 Jun 2019.

Vancouver:

Hull KL. Advances in Geminal Organodimetallics: Synthesis, Structural Characterization, and Reactivity</h1>. [Internet] [Doctoral dissertation]. University of Notre Dame; 2009. [cited 2019 Jun 19]. Available from: https://curate.nd.edu/show/3484zg66q03.

Council of Science Editors:

Hull KL. Advances in Geminal Organodimetallics: Synthesis, Structural Characterization, and Reactivity</h1>. [Doctoral Dissertation]. University of Notre Dame; 2009. Available from: https://curate.nd.edu/show/3484zg66q03


University of Notre Dame

7. Tori M Forbes. The Crystal Chemistry of Neptunium Compounds: Structural Relationships to U6+ Mineralogy</h1>.

Degree: PhD, Civil Engineering and Geological Sciences, 2007, University of Notre Dame

  Our understanding of solid state neptunium chemistry is still in its infancy with only a handful of structures determined. This lack of knowledge poses… (more)

Subjects/Keywords: crystal chemistry; Neptunium; uranium mineralogy

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APA (6th Edition):

Forbes, T. M. (2007). The Crystal Chemistry of Neptunium Compounds: Structural Relationships to U6+ Mineralogy</h1>. (Doctoral Dissertation). University of Notre Dame. Retrieved from https://curate.nd.edu/show/zp38w952r8f

Chicago Manual of Style (16th Edition):

Forbes, Tori M. “The Crystal Chemistry of Neptunium Compounds: Structural Relationships to U6+ Mineralogy</h1>.” 2007. Doctoral Dissertation, University of Notre Dame. Accessed June 19, 2019. https://curate.nd.edu/show/zp38w952r8f.

MLA Handbook (7th Edition):

Forbes, Tori M. “The Crystal Chemistry of Neptunium Compounds: Structural Relationships to U6+ Mineralogy</h1>.” 2007. Web. 19 Jun 2019.

Vancouver:

Forbes TM. The Crystal Chemistry of Neptunium Compounds: Structural Relationships to U6+ Mineralogy</h1>. [Internet] [Doctoral dissertation]. University of Notre Dame; 2007. [cited 2019 Jun 19]. Available from: https://curate.nd.edu/show/zp38w952r8f.

Council of Science Editors:

Forbes TM. The Crystal Chemistry of Neptunium Compounds: Structural Relationships to U6+ Mineralogy</h1>. [Doctoral Dissertation]. University of Notre Dame; 2007. Available from: https://curate.nd.edu/show/zp38w952r8f


University of Notre Dame

8. Xuyang He. Enolization reactions mediated by s-block metal amide reagents</h1>.

Degree: PhD, Chemistry and Biochemistry, 2008, University of Notre Dame

  The enolization of ketonic substrates is a cornerstone reaction in modern organic synthesis. The research in this dissertation is split into three main sections,… (more)

Subjects/Keywords: enolate; mechanism; Enolization; Ca(HMDS)2; selectivity; Alkali and alkaline earth metal amide bases

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APA (6th Edition):

He, X. (2008). Enolization reactions mediated by s-block metal amide reagents</h1>. (Doctoral Dissertation). University of Notre Dame. Retrieved from https://curate.nd.edu/show/2z10wq00378

Chicago Manual of Style (16th Edition):

He, Xuyang. “Enolization reactions mediated by s-block metal amide reagents</h1>.” 2008. Doctoral Dissertation, University of Notre Dame. Accessed June 19, 2019. https://curate.nd.edu/show/2z10wq00378.

MLA Handbook (7th Edition):

He, Xuyang. “Enolization reactions mediated by s-block metal amide reagents</h1>.” 2008. Web. 19 Jun 2019.

Vancouver:

He X. Enolization reactions mediated by s-block metal amide reagents</h1>. [Internet] [Doctoral dissertation]. University of Notre Dame; 2008. [cited 2019 Jun 19]. Available from: https://curate.nd.edu/show/2z10wq00378.

Council of Science Editors:

He X. Enolization reactions mediated by s-block metal amide reagents</h1>. [Doctoral Dissertation]. University of Notre Dame; 2008. Available from: https://curate.nd.edu/show/2z10wq00378


University of Notre Dame

9. 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 June 19, 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. 19 Jun 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 Jun 19]. 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

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