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You searched for +publisher:"University of Notre Dame" +contributor:("Craig S. Lent, Committee Member"). Showing records 1 – 5 of 5 total matches.

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University of Notre Dame

1. Michael S. McConnell. Effect of Platinum Oxidation and Reduction on Single Electron Transistors Fabricated by Atomic Layer Deposition.

Degree: MSin Electrical Engineering, Electrical Engineering, 2016, University of Notre Dame

  This work describes the fabrication of single electron transistors using electron beam lithography and atomic layer deposition to form nanoscale tunnel transparent junctions of… (more)

Subjects/Keywords: single electronics; atomic layer deposition; single electron transistor

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APA (6th Edition):

McConnell, M. S. (2016). Effect of Platinum Oxidation and Reduction on Single Electron Transistors Fabricated by Atomic Layer Deposition. (Masters Thesis). University of Notre Dame. Retrieved from https://curate.nd.edu/show/vx021c2104k

Chicago Manual of Style (16th Edition):

McConnell, Michael S.. “Effect of Platinum Oxidation and Reduction on Single Electron Transistors Fabricated by Atomic Layer Deposition.” 2016. Masters Thesis, University of Notre Dame. Accessed November 20, 2018. https://curate.nd.edu/show/vx021c2104k.

MLA Handbook (7th Edition):

McConnell, Michael S.. “Effect of Platinum Oxidation and Reduction on Single Electron Transistors Fabricated by Atomic Layer Deposition.” 2016. Web. 20 Nov 2018.

Vancouver:

McConnell MS. Effect of Platinum Oxidation and Reduction on Single Electron Transistors Fabricated by Atomic Layer Deposition. [Internet] [Masters thesis]. University of Notre Dame; 2016. [cited 2018 Nov 20]. Available from: https://curate.nd.edu/show/vx021c2104k.

Council of Science Editors:

McConnell MS. Effect of Platinum Oxidation and Reduction on Single Electron Transistors Fabricated by Atomic Layer Deposition. [Masters Thesis]. University of Notre Dame; 2016. Available from: https://curate.nd.edu/show/vx021c2104k


University of Notre Dame

2. Robin Andrew Joyce. A System to Demonstrate the Bistability of Molecules for Application in a Molecular QCA Cell.

Degree: MSin Electrical Engineering, Electrical Engineering, 2008, University of Notre Dame

  Quantum-dot Cellular Automata (QCA) provides a new paradigm for computation and for the design of electronic devices [1]. The past 40 years have seen… (more)

Subjects/Keywords: molecular electronics; molecular QCA; SET

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APA (6th Edition):

Joyce, R. A. (2008). A System to Demonstrate the Bistability of Molecules for Application in a Molecular QCA Cell. (Masters Thesis). University of Notre Dame. Retrieved from https://curate.nd.edu/show/mw22v40840g

Chicago Manual of Style (16th Edition):

Joyce, Robin Andrew. “A System to Demonstrate the Bistability of Molecules for Application in a Molecular QCA Cell.” 2008. Masters Thesis, University of Notre Dame. Accessed November 20, 2018. https://curate.nd.edu/show/mw22v40840g.

MLA Handbook (7th Edition):

Joyce, Robin Andrew. “A System to Demonstrate the Bistability of Molecules for Application in a Molecular QCA Cell.” 2008. Web. 20 Nov 2018.

Vancouver:

Joyce RA. A System to Demonstrate the Bistability of Molecules for Application in a Molecular QCA Cell. [Internet] [Masters thesis]. University of Notre Dame; 2008. [cited 2018 Nov 20]. Available from: https://curate.nd.edu/show/mw22v40840g.

Council of Science Editors:

Joyce RA. A System to Demonstrate the Bistability of Molecules for Application in a Molecular QCA Cell. [Masters Thesis]. University of Notre Dame; 2008. Available from: https://curate.nd.edu/show/mw22v40840g


University of Notre Dame

3. Beth Claire Isaksen. Molecular Quantum-Dot Cellular Automata.

Degree: MSin Electrical Engineering, Electrical Engineering, 2003, University of Notre Dame

  Quantum-dot cellular automata (QCA) is an approach to computing which eliminates the need for transistors by representing binary digits as charge configurations rather than… (more)

Subjects/Keywords: molecular electronics; nanotechnology; quantum dot

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APA (6th Edition):

Isaksen, B. C. (2003). Molecular Quantum-Dot Cellular Automata. (Masters Thesis). University of Notre Dame. Retrieved from https://curate.nd.edu/show/0k225b01f17

Chicago Manual of Style (16th Edition):

Isaksen, Beth Claire. “Molecular Quantum-Dot Cellular Automata.” 2003. Masters Thesis, University of Notre Dame. Accessed November 20, 2018. https://curate.nd.edu/show/0k225b01f17.

MLA Handbook (7th Edition):

Isaksen, Beth Claire. “Molecular Quantum-Dot Cellular Automata.” 2003. Web. 20 Nov 2018.

Vancouver:

Isaksen BC. Molecular Quantum-Dot Cellular Automata. [Internet] [Masters thesis]. University of Notre Dame; 2003. [cited 2018 Nov 20]. Available from: https://curate.nd.edu/show/0k225b01f17.

Council of Science Editors:

Isaksen BC. Molecular Quantum-Dot Cellular Automata. [Masters Thesis]. University of Notre Dame; 2003. Available from: https://curate.nd.edu/show/0k225b01f17


University of Notre Dame

4. Qingling Hang. Molecular Liftoff Technology by Electron Beam Lithography for Molecular Electronics Devices.

Degree: PhD, Electrical Engineering, 2004, University of Notre Dame

  The quantum-dot cellular automata (QCA) scheme is a promising replacement for current CMOS technology. Patterning QCA molecules on a surface in a controlled manner… (more)

Subjects/Keywords: PMMA remover; molecular electronics; electron beam lithography; molecular nanopatterning; molecular liftoff; surface cleanness

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APA (6th Edition):

Hang, Q. (2004). Molecular Liftoff Technology by Electron Beam Lithography for Molecular Electronics Devices. (Doctoral Dissertation). University of Notre Dame. Retrieved from https://curate.nd.edu/show/s4655d8932r

Chicago Manual of Style (16th Edition):

Hang, Qingling. “Molecular Liftoff Technology by Electron Beam Lithography for Molecular Electronics Devices.” 2004. Doctoral Dissertation, University of Notre Dame. Accessed November 20, 2018. https://curate.nd.edu/show/s4655d8932r.

MLA Handbook (7th Edition):

Hang, Qingling. “Molecular Liftoff Technology by Electron Beam Lithography for Molecular Electronics Devices.” 2004. Web. 20 Nov 2018.

Vancouver:

Hang Q. Molecular Liftoff Technology by Electron Beam Lithography for Molecular Electronics Devices. [Internet] [Doctoral dissertation]. University of Notre Dame; 2004. [cited 2018 Nov 20]. Available from: https://curate.nd.edu/show/s4655d8932r.

Council of Science Editors:

Hang Q. Molecular Liftoff Technology by Electron Beam Lithography for Molecular Electronics Devices. [Doctoral Dissertation]. University of Notre Dame; 2004. Available from: https://curate.nd.edu/show/s4655d8932r


University of Notre Dame

5. Ravi Kummamuru. Experimental studies on Quantum-dot Cellular Automata Devices.

Degree: PhD, Electrical Engineering, 2004, University of Notre Dame

  Quantum-dot Cellular Automata is an exciting novel device architecture for implementation of digital logic using bistable elements. This architecture offers a number of advantages… (more)

Subjects/Keywords: Quantum-dot Cellular Automata; QCA; Single electronics; Digital Logic; Latch; Shift-register; Power Gain; Leadless

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APA (6th Edition):

Kummamuru, R. (2004). Experimental studies on Quantum-dot Cellular Automata Devices. (Doctoral Dissertation). University of Notre Dame. Retrieved from https://curate.nd.edu/show/3r074t66b86

Chicago Manual of Style (16th Edition):

Kummamuru, Ravi. “Experimental studies on Quantum-dot Cellular Automata Devices.” 2004. Doctoral Dissertation, University of Notre Dame. Accessed November 20, 2018. https://curate.nd.edu/show/3r074t66b86.

MLA Handbook (7th Edition):

Kummamuru, Ravi. “Experimental studies on Quantum-dot Cellular Automata Devices.” 2004. Web. 20 Nov 2018.

Vancouver:

Kummamuru R. Experimental studies on Quantum-dot Cellular Automata Devices. [Internet] [Doctoral dissertation]. University of Notre Dame; 2004. [cited 2018 Nov 20]. Available from: https://curate.nd.edu/show/3r074t66b86.

Council of Science Editors:

Kummamuru R. Experimental studies on Quantum-dot Cellular Automata Devices. [Doctoral Dissertation]. University of Notre Dame; 2004. Available from: https://curate.nd.edu/show/3r074t66b86

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