Goodwin, David G.

Article from CaltechAUTHORS

• Boyd, David A. and Hao, Yong, et el. (2013) Block Copolymer Lithography of Rhodium Nanoparticles for High Temperature Electrocatalysis; ACS Nano; Vol. 7; No. 6; 4919-4923; 10.1021/nn400156y
• Oh, Tae-Sik and Boyd, David A., et el. (2012) Proton conductivity of columnar ceria thin-films grown by chemical vapor deposition; Physical Chemistry Chemical Physics; Vol. 15; No. 7; 2466-2472; 10.1039/C2CP43036C
• Ciucci, Francesco and Chueh, William C., et el. (2011) Surface reaction and transport in mixed conductors with electrochemically-active surfaces: a 2-D numerical study of ceria; Physical Chemistry Chemical Physics; Vol. 13; No. 6; 2121-2135; 10.1039/c0cp01219j
• Brown, Evan C. and Wilke, Stephen K., et el. (2010) Polymer sphere lithography for solid oxide fuel cells: a route to functional, well-defined electrode structures; Journal of Materials Chemistry; Vol. 20; No. 11; 2190-2196; 10.1039/b920973e
• Adleman, James R. and Boyd, David A., et el. (2009) Heterogenous Catalysis Mediated by Plasmon Heating; Nano Letters; Vol. 9; No. 12; 4417-4423; 10.1021/nl902711n
• Goodwin, David G. and Zhu, Huayang, et el. (2009) Modeling Electrochemical Oxidation of Hydrogen on Ni–YSZ Pattern Anodes; Journal of the Electrochemical Society; Vol. 156; No. 9; B1004-B1021; 10.1149/1.3148331
• Ciucci, Francesco and Hao, Yong, et el. (2009) Impedance spectra of mixed conductors: a 2D study of ceria; Physical Chemistry Chemical Physics; Vol. 11; No. 47; 11243-11257; 10.1039/b907740e
• Hao, Yong and Goodwin, David G. (2008) Efficiency and fuel utilization of methane-powered single-chamber solid oxide fuel cells; Journal of Power Sources; Vol. 183; No. 1; 157-163; 10.1016/j.jpowsour.2008.04.072
• Hao, Yong and Goodwin, David G. (2008) Numerical Study of Heterogeneous Reactions in an SOFC Anode with Oxygen Addition; Journal of the Electrochemical Society; Vol. 155; No. 7; B666-B674; 10.1149/1.2907763
• Boyd, David A. and Adleman, James R., et el. (2008) Chemical Separations by Bubble-Assisted Interphase Mass-Transfer; Analytical Chemistry; Vol. 80; No. 7; 2452-2456; 10.1021/ac702174t
• Ciucci, F. and Goodwin, D. G. (2007) Non Linear Modeling of Mixed Ionic Electronic Conductors; ECS Transactions; Vol. 7; No. 1; 2075-2082; 10.1149/1.2729321
• Hao, Y. and Goodwin, D. G. (2007) Numerical Modeling of Single-Chamber SOFCs with Hydrocarbon Fuels; Journal of the Electrochemical Society; Vol. 154; No. 2; B207-B217; 10.1149/1.2404895
• El-Naggar, Mohamed Y. and Dayal, Kaushik, et el. (2006) Graded ferroelectric capacitors with robust temperature characteristics; Journal of Applied Physics; Vol. 100; No. 11; Art. No. 114115; 10.1063/1.2369650
• Boyd, David A. and Greengard, Leslie, et el. (2006) Plasmon-Assisted Chemical Vapor Deposition; Nano Letters; Vol. 6; No. 11; 2592-2597; 10.1021/nl062061m
• Boyd, D. A. and El-Naggar, M. Y., et el. (2006) In situ measurements of stress with temperature in thin film Pb_xBa_(1-x)TiO_3; Integrated Ferroelectrics; Vol. 83; No. 1; 155-164; 10.1080/10584580600950822
• Hao, Yong and Shao, Zongping, et el. (2006) Recent advances in single-chamber fuel-cells: Experiment and modeling; Solid State Ionics; Vol. 177; No. 19-25; 2013-2021; 10.1016/j.ssi.2006.05.008
• Zhu, Huayang and Kee, Robert J., et el. (2005) Modeling Elementary Heterogeneous Chemistry and Electrochemistry in Solid-Oxide Fuel Cells; Journal of the Electrochemical Society; Vol. 152; No. 12; A2427-A2440; 10.1149/1.2116607
• El-Naggar, Mohamed Y. and Boyd, David A., et el. (2005) Characterization of highly-oriented ferroelectric Pb_xBa_(1-x)TiO_3; Journal of Materials Research; Vol. 20; No. 11; 2969-2976; 10.1557/JMR.2005.0374
• Bergthorson, Jeffrey M. and Sone, Kazuo, et el. (2005) Impinging laminar jets at moderate Reynolds numbers and separation distances; Physical Review E; Vol. 72; No. 6; Art. No. 066307; 10.1103/PhysRevE.72.066307
• Hao, Yong and Pantano, Carlos, et el. (2005) A Two-Dimensional Model of a Single-Chamber SOFC with Hydrocarbon Fuels; ECS Meeting Abstracts; Vol. MA2005; No. Q1; 1258
• Brewer, Rhett T. and Boyd, David A., et el. (2005) Growth of biaxially textured BaxPb1–xTiO3 ferroelectric thin films on amorphous Si3N4; Journal of Applied Physics; Vol. 97; No. 3; Art. No. 034103; 10.1063/1.1806994
• Bergthorson, Jeffrey M. and Goodwin, David G., et el. (2005) Particle streak velocimetry and CH laser-induced fluorescence diagnostics in strained, premixed, methane–air flames; Proceedings of the Combustion Institute; Vol. 30; No. 1; 1637-1644; 10.1016/j.proci.2004.08.105
• Blandino, J. J. and Goodwin, D. G. (2004) Magnetoplasmadynamic (MPD) accelerator assisted synthesis of diamond; Plasma Sources Science and Technology; Vol. 13; No. 4; 712-718; 10.1088/0963-0252/13/4/022
• Gallivan, Martha A. and Goodwin, David G., et el. (2004) Effective transition rates for epitaxial growth using fast modulation; Physical Review B; Vol. 70; No. 4; Art. No. 045409; 10.1103/PhysRevB.70.045409
• Holt, Jason K. and Swiatek, Maribeth, et el. (2002) The aging of tungsten filaments and its effect on wire surface kinetics in hot-wire chemical vapor deposition; Journal of Applied Physics; Vol. 92; No. 8; 4803-4808; 10.1063/1.1504172
• Shin, Ho Seon and Goodwin, David G. (1995) Diamond growth in premixed propylene-oxygen flames; Applied Physics Letters; Vol. 66; No. 21; 2909-2911; 10.1063/1.113700
• Leifer, S. D. and Goodwin, D. G., et el. (1995) Thermal decomposition of a fullerene mix; Physical Review B; Vol. 51; No. 15; 9973-9978; 10.1103/PhysRevB.51.9973
• Harris, Stephen J. and Shin, Ho Seon, et el. (1995) Diamond films from combustion of methyl acetylene and propadiene; Applied Physics Letters; Vol. 66; No. 7; 891-893; 10.1063/1.113422
• Goodwin, D. G. (1993) Scaling laws for diamond chemical-vapor deposition. II. Atomic hydrogen transport; Journal of Applied Physics; Vol. 74; No. 11; 6895-6906; 10.1063/1.355064
• Goodwin, D. G. (1993) Scaling laws for diamond chemical-vapor deposition. I. Diamond surface chemistry; Journal of Applied Physics; Vol. 74; No. 11; 6888-6894; 10.1063/1.355063
• Corat, E. J. and Goodwin, D. G. (1993) Temperature dependence of species concentrations near the substrate during diamond chemical vapor deposition; Journal of Applied Physics; Vol. 74; No. 3; 2021-2029; 10.1063/1.354765
• Green, David S. and Owano, Thomas G., et el. (1993) Boundary Layer Profiles in Plasma Chemical Vapor Deposition; Science; Vol. 259; No. 5102; 1726-1729; 10.1126/science.259.5102.1726
• Glumac, N. G. and Goodwin, D. G. (1992) Diamond growth in a novel low pressure flame; Applied Physics Letters; Vol. 60; No. 21; 2695-2696; 10.1063/1.106876
• Goodwin, D. G. (1991) Simulations of high-rate diamond synthesis: Methyl as growth species; Applied Physics Letters; Vol. 59; No. 3; 277-279; 10.1063/1.105620
• Goodwin, D. G. and Gavillet, G. G. (1990) Numerical modeling of the filament-assisted diamond growth environment; Journal of Applied Physics; Vol. 68; No. 12; 6393-6400; 10.1063/1.346858
• Goodwin, D. G. and Fill, E. E. (1988) Inversion and gain in hydrogenic ion levels induced by photoionization pumping; Journal of Applied Physics; Vol. 64; No. 3; 1005-1014; 10.1063/1.341909