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Number of items: 53.

Conference contribution

Svrcek, V, Mariotti, D, Matsubara, K and Kondo, M (2012) Carriers Multiplication in Neighboring Surfactant-free Silicon Nanocrystals Produced by 3D-surface Engineering in Liquid Medium. In: THE 38th IEEE PHOTOVOLTAIC SPECIALISTS CONFERENCE. IEEE. 4 pp. [Conference contribution]

Svrcek, V., Mariotti, D, Cook, S., Kazaoui, S., Shibata, Y. and Kondo, M. (2011) Silicon nanocrystal surface engineering and their electronic interaction with carbon based materials. In: Photovoltaic Specialists Conference (PVSC), 2011 37th IEEE. IEEE. 5 pp. [Conference contribution]

Kurinec, S, Jackson, M, Mariotti, D, Gupta, S, Rommel, S, Ewbank, D, Hirschman, K, Pearson, R and Fuller, L (2010) Microelectronic Engineering Education for Emerging Technologies. In: 2010 IEEE FRONTIERS IN EDUCATION CONFERENCE (FIE). IEEE. 6 pp. [Conference contribution]

Mariotti, D, Švrček, V, Mathur, A and Kondo, M (2010) Silicon nanocrystals surface engineering by low-pressure plasmas andatmospheric-pressure microplasmas. In: GEC-ICRP 2010. American Physical Society. 2 pp. [Conference contribution]

Svrcek, V, Mariotti, D, Hailstone, R, Fujiwara, H and Kondo, M (2008) Luminescent Colloidal Silicon Nanocrystals Prepared by Nanoseconds Laser Fragmentation and Laser Ablation in Water. In: AMORPHOUS AND POLYCRYSTALLINE THIN-FILM SILICON SCIENCE AND TECHNOLOGY-2008. UNSPECIFIED. 6 pp. [Conference contribution]

Shimizu, Y, Koga, K, Sasaki, T, Mariotti, D, Terashima, K and Koshizaki, N (2007) Localized deposition of metallic molybdenum particles in ambient air using atmospheric-pressure microplasma. In: MICROPROCESSES AND NANOTECHNOLOGY 2007, DIGEST OF PAPERS, Kyoto, Japan. UNSPECIFIED. 2 pp. [Conference contribution]

Hyland, M, Mariotti, D, Dubitzky, W, McLaughlin, JAD and Maguire, PD (2000) Gas recognition using a neural network approach to plasma optical emission spectroscopy. In: APPLICATIONS AND SCIENCE OF NEURAL NETWORKS, FUZZY SYSTEMS, AND EVOLUTIONARY COMPUTATION III, SAN DIEGO. SPIE-INT SOC OPTICAL ENGINEERING. Vol 4120 5 pp. [Conference contribution]

Dubitzky, W, Mariotti, D, Hyland, M and McLaughlin, JAD (1998) A neural network approach to plasma emission interpretation. In: International Society for Computers and their Applications 11TH International Conference on Computer Applications in Industry and Engineering, Las Vegas, USA. UNSPECIFIED. 4 pp. [Conference contribution]

Journal article

Askari, S., Levchenko, I., Ostrikov, K., Maguire, PD and Mariotti, D (2014) Crystalline Si nanoparticles below crystallization threshold: Effects of collisional heating in non-thermal atmospheric-pressure microplasmas. Applied Physics Letters, 104 (16). [Journal article]

Mitra, S, Svrcek, V, Mariotti, D, Velusamy, T, Matsubara, K and Kondo, M (2014) Microplasma-Induce Liquid Chemistry for Stabilizing of Silicon Nanocrystals Optical Properties in Water. Plasma Processes and Polymers, 11 (2). pp. 158-163. [Journal article]

Lu, Y., Xu, S. F., Zhong, X. X., Ostrikov, K., Cvelbar, U. and Mariotti, D (2013) Characterization of a DC-driven microplasma between a capillary tube and water surface. EPL (Europhysics Letters), 102 (1). p. 15002. [Journal article]

Mariotti, D, Mitra, S and Svrcek, V (2013) Surface-engineered silicon nanocrystals. Nanoscale, 5 . pp. 1385-1398. [Journal article]

Mariotti, D, Svrcek, V, Mathur, A, Dickinson, C, Matsubara, K and Kondo, M (2013) Carbon nanotube growth activated by quantum-confined silicon nanocrystals. Journal of Physics D: Applied Physics, 46 (12). p. 122001. [Journal article]

Mitra, S, Cook, S, Svrcek, V, Blackley, RA, Zhou, W, Kovac, J, Cvelbar, U and Mariotti, D (2013) Improved Optoelectronic Properties of Silicon Nanocrystals/Polymer Nanocomposites by Microplasma-Induced Liquid Chemistry. The Journal of Physical Chemistry C, 117 (44). pp. 23198-23207. [Journal article]

Mitra, S, Cook, S, Svrek, V, Blackley, RA, Zhou, W, Kovač, J, Cvelbar, U and Mariotti, D (2013) Improved Optoelectronic Properties of Silicon Nanocrystals/Polymer Nanocomposites by Microplasma-Induced Liquid Chemistry. The Journal of Physical Chemistry C . null. [Journal article]

Patel, J, Němcová, L, Maguire, PD, Graham, W G and Mariotti, D (2013) Synthesis of surfactant-free electrostatically stabilized gold nanoparticles by plasma-induced liquid chemistry. Nanotechnology, 24 (24). p. 245604. [Journal article]

Svrcek, V, Dohnalova, K, Mariotti, D, Trinh, MT, Limpens, R, Mitra, S, Gregorkiewicz, T, Matsubara, K and Kondo, M (2013) Dramatic Enhancement of Photoluminescence Quantum Yields for Surface-Engineered Si Nanocrystals within the Solar Spectrum. Advanced Functional Materials, 23 (48). pp. 6051-6058. [Journal article]

Svrcek, V, Mariotti, D, Blackley, RA, Zhou, WZ, Nagai, T, Matsubara, K and Kondo, M (2013) Semiconducting quantum confined silicon-tin alloyed nanocrystals prepared by ns pulsed laser ablation in water. Nanoscale, 5 . pp. 6725-6730. [Journal article]

Svrcek, V, Mariotti, D, Mitra, S, Kaneko, T, Li, L, Cvelbar, U, Matsubara, L and Kondo, M (2013) Built-In Charges and Photoluminescence Stability of 3D Surface-Engineered Silicon Nanocrystals by a Nanosecond Laser and a Direct Current Microplasma. The Journal of Physical Chemistry C, 117 (21). pp. 10939-10948. [Journal article]

Mariotti, D, Patel, J, Svrcek, V and Maguire, PD (2012) Plasma-€“Liquid Interactions at Atmospheric Pressure for Nanomaterials Synthesis and Surface Engineering. Plasma Processes and Polymers, 9 (11-12). pp. 1074-1085. [Journal article]

Mariotti, D, Svrcek, V, Hamilton, JWJ, Schmidt, M and Kondo, M (2012) Silicon Nanocrystals in Liquid Media: Optical Properties and Surface Stabilization by Microplasma-Induced Non-Equilibrium Liquid Chemistry. Advanced Functional Materials, 22 (5). pp. 954-964. [Journal article]

Svrcek, V, Mariotti, D, Yamanari, T, Matsubara, K and Kondo, M (2012) Integration of Surfactant-Free Silicon Nanocrystal in Hybrid Solar Cells. Japanese Journal of Applied Physics, 51 . 10NE25. [Journal article]

Svreck, V., Yamanari, T., Mariotti, D, Matsubara, K. and Kondo, M. (2012) Enhancement of hybrid solar cell performance by polythieno [3,4-b]thiophenebenzodithiophene and microplasma-induced surface engineering of silicon nanocrystals. Applied Physics Letters, 100 (22). p. 223904. [Journal article]

Švrček, V and Mariotti, D (2012) Electronic interactions of silicon nanocrystals and nanocarbon materials: Hybrid solar cells. Pure and Applied Chemistry, 84 . pp. 2629-2639. [Journal article]

Švrček, V, Mariotti, D, Matsubara, K and Kondo, M (2012) Silicon Nanocrystals Surface Engineering by Nanosecond Laser Processing in Water. The Review of Laser Engineering, 2 . pp. 1-5. [Journal article]

McKenna, J, Patel, J, Mitra, S, Soin, N, Svrcek, V, Maguire, PD and Mariotti, D (2011) Synthesis and surface engineering of nanomaterials by atmospheric-pressure microplasmas. The European Physical Journal - Applied Physics, 56 (02). p. 24020. [Journal article]

Greenan, J, Mahony, CMO, Mariotti, D and Maguire, PD (2011) Characterization of hollow cathode and parallel plate microplasmas: scaling and breakdown. Plasma Sources Science and Technology, 20 (2). 025011. [Journal article]

Mariotti, D and Sankaran, RM (2011) Perspectives on atmospheric-pressure plasmas for nanofabrication. Journal of Physics D: Applied Physics, 44 (17). p. 174023. [Journal article]

Svrcek, V, Mariotti, D, Kalia, K, Dickinson, C and Kondo, M (2011) Formation of Single-Crystal Spherical Particle Architectures by Plasma-Induced Low-Temperature Coalescence of Silicon Nanocrystals Synthesized by Laser Ablation in Water. The Journal of Physical Chemistry C, 115 (14). pp. 6235-6242. [Journal article]

Svrcek, V, Mariotti, D, Nagai, T, Shibata, Y, Turkevych, I and Kondo, M (2011) Photovoltaic Applications of Silicon Nanocrystal Based Nanostructures Induced by Nanosecond Laser Fragmentation in Liquid Media. The Journal of Physical Chemistry C, 115 (12). pp. 5084-5093. [Journal article]

Mariotti, D and Sankaran, RM (2010) Microplasmas for nanomaterials synthesis. Journal of Physics D: Applied Physics, 43 (32). p. 323001. [Journal article]

Svrcek, V, Mariotti, D, Shibata, Y and Kondo, M (2010) A hybrid heterojunction based on fullerenes and surfactant-free, self-assembled, closely packed silicon nanocrystals. Journal of Physics D: Applied Physics, 43 (41). p. 415402. [Journal article]

SvrCek, V., Mariotti, D and Kondo, M. (2010) Microplasma-induced surface engineering of silicon nanocrystals in colloidal dispersion. Applied Physics Letters, 97 (16). p. 161502. [Journal article]

Levchenko, I., Ostrikov, K. and Mariotti, D (2009) The production of self-organized carbon connections between Ag nanoparticles using atmospheric microplasma synthesis. CARBON, 47 (1). pp. 344-347. [Journal article]

Levchenko, I., Ostrikov, K., Mariotti, D and Svrcek, V. (2009) Self-organized carbon connections between catalyst particles on a silicon surface exposed to atmospheric-pressure Ar + CH4 microplasmas. Carbon, 47 (10). pp. 2379-2390. [Journal article]

Mariotti, D, Bose, AC and Ostrikov, K (2009) Atmospheric-Microplasma-Assisted Nanofabrication: Metal and Metal-Oxide Nanostructures and Nanoarchitectures. IEEE Transactions on Plasma Science, 37 (6, Part 1 Sp. Iss. SI). pp. 1027-1033. [Journal article]

Mariotti, D and Ostrikov, K (2009) Tailoring microplasma nanofabrication: from nanostructures to nanoarchitectures. JOURNAL OF PHYSICS D-APPLIED PHYSICS, 42 (9). 092002-1. [Journal article]

Svrcek, V, Kondo, M, Kalia, K and Mariotti, D (2009) Photosensitive self-assembled nanoarchitectures containing surfactant-free Si nanocrystals produced by laser fragmentation in water. CHEMICAL PHYSICS LETTERS, 478 (4-6). pp. 224-229. [Journal article]

Svrcek, V, Mariotti, D and Kondo, M (2009) Ambient-stable blue luminescent silicon nanocrystals prepared by nanosecond-pulsed laser ablation in water. Optics Express, 17 (2). pp. 520-527. [Journal article]

Wagner, AJ, Mariotti, D, Yurchenko, KJ and Das, TK (2009) Experimental study of a planar atmospheric-pressure plasma operating in the microplasma regime. Physical Review E (Statistical, Nonlinear, and Soft Matter Physics), 80 (6). 065401. [Journal article]

Levchenko, I., Ostrikov, K., Diwan, K., Winkler, K. and Mariotti, D (2008) Plasma-driven self-organization of Ni nanodot arrays on Si(100). APPLIED PHYSICS LETTERS, 93 (18). pp. 183102-1. [Journal article]

Levchenko, I., Ostrikov, K., Mariotti, D and Murphy, AB (2008) Plasma-controlled metal catalyst saturation and the initial stage of carbon nanostructure array growth. JOURNAL OF APPLIED PHYSICS, 104 (7). 073308-1. [Journal article]

Mariotti, D (2008) Nonequilibrium and effect of gas mixtures in an atmospheric microplasma. APPLIED PHYSICS LETTERS, 92 (15). pp. 151505-1. [Journal article]

Mariotti, D, Lindstroem, H, Bose, AC and Ostrikov, K (2008) Monoclinic beta-MoO3 nanosheets produced by atmospheric microplasma: application to lithium-ion batteries. NANOTECHNOLOGY, 19 (49). pp. 495302-1. [Journal article]

Mariotti, D, Shimizu, Y, Sasaki, T and Koshizaki, N (2007) Gas temperature and electron temperature measurements by emission spectroscopy for an atmospheric microplasma. JOURNAL OF APPLIED PHYSICS, 101 (1). 013307-1. [Journal article]

Mariotti, D, Svrcek, V and Kim, DG (2007) Self-organized nanostructures on atmospheric microplasma exposed surfaces. APPLIED PHYSICS LETTERS, 91 (18). pp. 183111-1. [Journal article]

Bose, AC, Shimizu, Y, Mariotti, D, Sasaki, T, Terashima, K and Koshizaki, N (2006) Flow rate effect on the structure and morphology of molybdenum oxide nanoparticles deposited by atmospheric-pressure microplasma processing. NANOTECHNOLOGY, 17 (24). pp. 5976-5982. [Journal article]

Mariotti, D, Shimizu, Y, Sasaki, T and Koshizaki, N (2006) Method to determine argon metastable number density and plasma electron temperature from spectral emission originating from four 4p argon levels. APPLIED PHYSICS LETTERS, 89 (20). pp. 201502-1. [Journal article]

Shimizu, Y, Bose, AC, Mariotti, D, Sasaki, T, Kirihara, K, Suzuki, T, Terashima, K and Koshizaki, N (2006) Reactive evaporation of metal wire and microdeposition of metal oxide using atmospheric pressure reactive microplasma jet. JAPANESE JOURNAL OF APPLIED PHYSICS PART 1-REGULAR PAPERS BRIEF COMMUNICATIONS & REVIEW PAPERS, 45 (10B). pp. 8228-8234. [Journal article]

Shimizu, Y, Bose, AC, Sasaki, T, Mariotti, D, Kirihara, K, Kodaira, T, Terashima, K and Koshizaki, N (2006) Development of cross-flow micro-nebulizer for atmospheric pressure microplasma deposition and its application to prepare nano-carbon materials from alcohol. Transactions of the Materials Research Society of Japan, 31 (2). pp. 463-466. [Journal article]

Mariotti, D, Maguire, PD, Mahony, CMO and McLaughlin, JAD (2004) Analysis of excitation processes and electron temperature changes from spectral data in a dc micro plasma discharge. Plasma Sources Science and Technology, 13 (4). pp. 576-581. [Journal article]

Mariotti, D, McLaughlin, JAD and Maguire, PD (2004) Experimental study of breakdown voltage and effective secondary electron emission coefficient for a micro-plasma device. Plasma Sources Science & Technology, 13 (2). pp. 207-212. [Journal article]

Lemoine, P, Mariotti, D, Maguire, PD and McLaughlin, JAD (2001) Depth-sensitive analysis of a degraded tin oxide electrode surface in a plasma device application. THIN SOLID FILMS, 401 (1-2). pp. 196-202. [Journal article]

This list was generated on Thu Oct 30 09:02:23 2014 GMT.