PENN-UPRH Partnership for research

and education in materials

TECHNICAL REPORTS

  1. López, M., Usability of the mixture building section of Wolffia, (2013).
  2. Sotero-Esteva, J.O., Measurements of performance of hardware and general purpose classical molecular dynamics simulation software, (2013).

Publications

2015 | 2014 | 2013 | 2012 | 2011 | 2010 | 2009 | 2008 | 2007 | 2006 | 2005 | 2004

2015

  1. Calderón-Ortiz, G.; Vedrine-Pauleus, J.; Carrasco, H. M. Nanomorphology characteristics of thermally annealed, pre-encapsulated P3HT: PCBM thin films using atomic force microscopy, J. Nano Energy Power Res. 2015, 3(1), 1-4.
  2. Pinto, N. J. Electrospinning of Electro-Active Materials: Devices Based on Individual and Crossed Nanofibers, In Electrospinning for High Performance Sensors: NanoScience and Technology, A. Macagano et. al. (edts), Springer International Publishing, Switzerland, 2015. ISBN: 978-3-319-14405-4.
  3. Serrano, W.; Pinto, N. J.; Naylor, C. H.; Kybert, N. J.; Johnson, A. T. Charlie Jr. Facile fabrication of a UV tunable MoS2/p-Si junction diode, Appl. Phys. Lett. 2015, 106, 193504.
  4. Zimbovskaya, N. A. The effect of Coulomb interactions on nonlinear thermovoltage and thermocurrent in quantum dots, J. Chem. Phys. 2015, 142, 244310.
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2014

  1. Campo E.M, J. Poplawksky, A. Meléndez, J. Robles-García, I. Ramos, D. Yates, J. Fischert and J. J. Santiago-Avilés, Disordered grain growth in polycrystalline GaN obtained by the polymer-derived-ceramic route, ROY SOC CH (doi: 10.1039/c3ra44899a) (2014).
  2. Oquendo, M.; Calderón, G.; Vedrine, J.; Hee, G.; Johnson, A. T. Jr.; Pinto, N. Charge transport in CVD graphene, Proc. 28th Nat. Conf. Und. Res., Lexington, KY, Apr. 3-5, 2014, pp. 820-825.
  3. Ortiz C., V.M. Pantojas, and W. Otaño-Rivera, Effect of annealing on the electrical properties of insulating aluminum nitride in MIM and MIS structures, SOLID STATE ELECTRON. (91), 106-111. (2014).
  4. Serrano W., A. Meléndez, I. Ramos and J. Pinto, Electrospun composite poly(lactic acid)/ polyaniline nanofibers from low concentrations in CHCL3: Making a biocompatible polyester electro-active, Polymer Int. 65(5), 1-7. (2014).
  5. Zimbovskaya N. A., The effect of Coulomb interactions on themoelectric properties of quantum dots, J CHEM PHYS. 140. (2014).
  6. Zimbovskaya N. A., The effect of dephasing on thermocurrent in quantum dots and molecules, J CHEM PHYS.: CONDEN. MATTER. 275303 (2014).
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2013

  1. Barbosa X., S. Rosa, V. Capel, F. Martínez, R. Quiñones, W. Cuadrado, I. Ramos, and J. Sotero-Esteva, A study of the effect of carbon nanotubes dispersion on the properties of polymer composite nanofibers, IAEMM. 86-93. (2013).
  2. Barbosa X., S. Rosa, V. Capel, F. Martínez, R. Quiñones, W. Cuadrado, I. Ramos, and J. Sotero-Esteva, A study of the effect of carbon nanotubes dispersion on the properties of polymer composite nanofibers, NANO STUD. (7), 77-86. (2013).
  3. Camargo C.J., A. Meléndez, J. Robles, J. Esteve, and I. Ramos, Electrospun Nanobridges towards Self-Heated Gas Sensors with Enhanced Sensitivity, J PHYS CONF SER. 421 012002. (2013).
  4. De Jesús, A. and P. Negrón, On the determination of photo-actuation effects for a polymer/MWCNT composite fiber based cantilever, PROC 27TH NAT CONF UND RES, La Crosse, WI (2013).
  5. Díaz-Serrano, M., A. Rosado, D. Santana, E.Z. Vega, and A.R. Guadalupe, Synthesis, Characterization and Use of Ru-Fc intercalation Complex as an Electrochemical Label for the Detection of Pathogen-DNA, J PHYS CONF SER. 421 012008 (2013).
  6. Enríquez Y., Y. Negrón, M. Navarreto, and A. R. Guadalupe, Development of an Electrochemical Biosensor for the Detection of an ADP-Ribosylating Toxin, Exo A from Pseudomosas aeruginosa, J PHYS CONF SER. 421 012021 (2013).
  7. Pinto N.J., Electrospun conducting polymer nanofibers as the active material in sensors and diodes, J PHYS CONF SER. 421 012004 (2013).
  8. Ramos, I. and J. J Santiago-Avilés. Preface. J PHYS CONF SER. 421 011001 (2013).
  9. Rosado, A. and N. Pinto, Dual Input Logic and Device Fabricated Using an n-doped Semiconductor: Effects of UV Light on Charge Mobility, PROC 27TH NAT CONF UND RES, La Crosse, WI (2013).
  10. Rosado, A. and N. J. Pinto, Effect of Ultraviolet Irradiation on an n-Doped Semiconductor Thin Film Transistor, CHEM SOC REV. (2013).
  11. Rosado, A. and N. J. Pinto, Electrospun Fibers of [P(nd12OD-T2)]n on P-Doped SI: Fabrication of a sub-micron size P-N junction diode, IJCE Serials Publications, ISSN: 0974-5793, IJCE. 6 (2), 175-181. (2013)
  12. Sotero-Esteva J., F. Martínez, R. Quiñones, W. Cuadrado and A. De Jesús , Fast set-up of classical molecular dynamics simulations of nanomaterials using wolffia, IAEMM. 271-279. (2013).
  13. Sotero-Esteva J., F. Martínez, R. Quiñones, W. Cuadrado and A. De Jesús , Fast set-up of classical molecular dynamics simulations of nanomaterials using wolffia, NANO STUD. (8), 77-84. (2013).
  14. Zimbovskaya N. A., Specific features of electric charge screening in few-layer graphene films, J PHYS CONDENS MAT. 25 045302 (2013).
  15. Zimbovskaya N. A. and E. Mele, Electric charge and potential distribution in twisted multilayer graphene, J APPL PHYS. 113 233705 (2013).
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2012

  1. Amadeo L., N. Granda, V. Pantojas and W. Otaño, Synthesis of ZnO Fibers doped with Al for Gas Sensors, REV IBEROAM SENS. 8 (1). (2012).
  2. Bonilla M., I. Ramos and N. Pinto, Devices and Sensors based on PVDF-TrFe/SWCNT's Composites, REV IBEROAM SENS. 8 (1). (2012).
  3. Calderón G., and J. Vedrine, The effect of Thermal Annealing On The Efficiency Of Semi-Transparent Organic Solar Cells, PROC 26TH NAT CONF UND RES, Ogden, UT (2012).
  4. Camargo C.J., A. Meléndez, J. Robles, J. Esteve, H. Campaella, and I. Ramos, Electrospun Nanobridges towards Self-Heated Gas Sensors with Enhanced Sensitivity, REV IBEROAM SENS. 8 (1). (2012).
  5. Carrasquillo K.V. and Pinto N.J., Tunable Schottky diodes fabricated from crossed electrospun Sn 02/PEDOT-PSSA nanoribbons, MATER SCI ENG B. (doi: 10.10161 j.mseb.2012.03.032). (2012).
  6. Díaz- Serrano, M., A. Rosado, D. Santana, E.Z. Vega, and A.R. Guadalupe, Synthesis, Characterization and Use of Ru-Fc intercalation Complex as an Electrochemical Label for the Detection of Pathogen-DNA, REV IBEROAM SENS. 8 (1). (2012).
  7. Enríquez Y., Y. Negrón, and A.R. Guadalupe, Development of an Electrochemical Biosensor for the Detection of an ADP-Ribosylating Toxin, Exo A from Pseudomosas aeruginosa, REV IBEROAM SENS. 8 (1). (2012).
  8. Luo Z, N. Pinto, Y. Dávila, and A.T. Johnson, Controlled doping of graphene using ultraviolet irradiation, APPL PHYS. Lett. 100, 253108 (2012).
  9. Medina-Cuadrado, M., C. Cortés-Martínez., M. López-Serrano, F. Martínez-Miranda, R. Vega-Alfaro, and J. Sotero, An Implementation of a Graphical Interface for Molecular Simulation Software using Python and Qt4, PROC 26TH NAT CONF UND RES, Ogden, UT (2012).
  10. Negrón, P. V., and J. Sivaloganathan; A Characterization of the Boundary Displacement which induce Cavitation in an Elastic Body. J ELASTICITY. 109 (1), 1-33. (2012).
  11. Negrón, P. V., And E. Montes-Pizarro; Violation of the complementing condition and local bifurcation in nonlinear elasticity. J ELASTICITY. 107 (2), 151-178. (2012).
  12. Pantojas V.M., L. Amadeo, N. Granda, C. Otriz and W. Otaño, Characterization of Aluminum Doped Zinc Oxide Thin films and nanostructures for H2 Gas Sensing Applications, REV IBEROAM SENS. 8 (1). (2012).
  13. Pinto N.J., Electrospun conducting polymer nanofibers as the active material in sensors and diodes, REV IBEROAM SENS. 8 (1). (2012).
  14. Ramos I. and J. J. Santiago-Avilés. Editorial Works. REV IBEROAM SENS. 8 (1). (2012).
  15. Rodríguez- Vindas D., C. Ortiz, V. Pantojas, and W. Otaño. Palladium Nanoshells for Ultra-sensitive Hydrogen Sensors, REV IBEROAM SENS. 8 (1). (2012).
  16. Rosa S., J.P. Crespo, J. Santiago, I. Ramos and E. Campo, Response of electrospun CNT composites to irradiation, Proc. SPIE PROC SER 8378: 837815. (2012).
  17. Serrano W., and N. Pinto, Elestrospun fibers of poly(vinylidene fluoride-trifluoroethylene)/poly(3-hexylthiophene) blends from tetrahydrofuran, FERROELECTR. 432 (1), 41-48. (2012).
  18. Serrano W., and N. Pinto, Elestrospun fibers of poly(vinylidene fluoride-trifluoroethylene)/poly(3-hexylthiophene) blends from tetrahydrofuran, PROC 26TH NAT CONF UND RES, Ogden, UT (2012).

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2011

  1. Abreu M., S. Montañez and N. Pinto, Electrospun composite nanofibers of poly (vinylidene fluoride-trifluoroethylene)/polyaniline-polystyrene sulfonic acid, J APPL POLYM SCI. 119, 3640-3644. (2011).
  2. Arias M., V. M. Pantojas, O. Perales, W. Otaño, Synthesis and Characterization of Magnetic diphase ZnFe2O4 /γ-Fe2O3 Electrospun Fibers, J MAGN MATER, 323, 2109-2114 (doi:10.1016/j.jmmm.2011.02.018) (2011).
  3. Barbosa X., I. Ramos, E. Campo and J. Santiago, Synthesis of AIN Nanofibers using Electrospinning, PROC NAT CONF UND RES. (2011).
  4. Berríos F., M. Medina, A. Cruz and J. Sotero, Detection of the Surface of a Liquid Nano-Droplet in a MD Simulation, PROC NAT CONF UND RES. (2011).
  5. Calderón G. and J. Vedrine-Pauléus, The Study of Polydimethylsiloxane (PDMS) Thin Film Surface Roughness Properties and its Resistance in Elevated Temperature and UV Light Resistant Applications, PROC NAT CONF UND RES. (2011).
  6. Campo E., D. Wenn, I. Ramos, J. Esteve and E. M. Terentjev, Education and Dissemination Strategies in Photoactuation, SPIE PROC SER 8107: 81071(2011).
  7. Crespo J. P., S. Rosa, A. Meléndez, J. Santiago, I. Ramos and E. Campo, Electrospun Polymer-CNT Actuators, SPIE PROC SER 8107: 81071 (2011).
  8. Dávila Y. and N. Pinto, Fabrication of Semiconducting ZnO Thin Films and nanofibers, PROC NAT CONF UND RES. (2011).
  9. Díaz-Serrano M., A. Rosado, J. Del Pilar, and A. Guadalupe. A Polymer-Based Electrochemical DNA Biosensor for Salmonella: Preparation, Characterization and Calibration. ELECTROANAL. 23 (8). (2011).
  10. Negrón, P. V., and J. Sivaloganathan , The Radial Volume Derivative and the Critical Boundary Displacement for Cavitation. SIAM J APPL MATH. 71 (6), 2185-2204. (2011).
  11. Negrón-Marrero P. and E. Campo, A Nonlinear Model of an Actuator, SPIE PROC SER 8107: 81071 (2011).
  12. Negrón-Marrero P. and E. Montes-Pizzarro, The complementing condition and its role on a global bifurcation theory applicable to nonlinear elasticity, NY J MATH. 17a, 245-265. (2011).
  13. Negrón-Marrero P. and E. Montes-Pizzarro, Violation of the complementing condition and local bifurcation in nonlinear elasticity, J ELASTICITY. (2011); doi: 10.1007/s10659-011-9349.
  14. Rosa S., J.P. Crespo, A. Meléndez, J. Santiago, I. Ramos and E. Campo, Dispersion and Precursor Synthesis for Electrospinning of Polymer-CNT Composites, Proc. SPIE PROC SER 8107: 81071. (2011).
  15. Pinto N. J., D. Rivera, A. Meléndez, I. Ramos, J.H. Lim, and A.T. Johnson, Electrical response of electrospun PEDOT-PSSA nanofibers to organic and inorganic gases, SENSOR ACTUATOR B. 156, 849-853. (2011).
  16. Robles J.L., Meléndez A, Yates D, Santiago J. J., Ramos I., Campo E. M, Postek M.T., Newbury D.E, Platek S.F, Joy D.C, and Maugel T.K, Transmission Electron Microscopy of Electrospun GaN Nanofibers.Proc. SPIE PROC SER. 8036: 8036F. (2011).
  17. Zimbovskaya N.A., Inelastic Effects in the Electron Transport Through Molecular Junctions: A brief overview, J COMPUT THEOR NANOS. 8, 338-347. (2011).
  18. Zimbovskaya N. A., Electromagnetic quantum waves and their effect on the low temperature magnetoacoustic response of a quasi two-dimensional metal, J PHYS CONDENS MAT. 23, 215701. (2011).
  19. Zimbovskaya N.A. and M. Pederson, Electron transport throught molecular junction; doi: 10.10161 J PHYS REP. 2011.08.002. (2011).
  20. Zimbovskaya N. A. and M. Kukla, Vibration-induced inelastic effects in the electron transport through molecular bridges, J CHEM PHYS. 131, 114703. (2011).
  21. Zimbovskaya N. A., and M. Pederson, Electron transport through molecular junctions. PHYS REP. 509 (1), 1-87. (2011).
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2010

  1. Arroyo-Ramírez L., Y. Figueroa, D. Rodríguez, W. Otaño, and C. R. Cabrera, Palladium Nanostructures Synthesis by Sputtering Deposition on HOPG Surfaces, ECS Trans. - 217th ECS Meeting. 28. (2010).
  2. Campo E., A. Meléndez, K. Morales, J. Poplawsky, J. Santiago and I. Ramos, Electron microscopy and cathodoluminescence in electrospun nanodimensional structures: challenges and opportunities, SPIE PROC SER 7729: 77290T (2010).
  3. Cardona, R. A., K. Hernández, L. E. Pedró, M. R. Otaño, I. Montes and A. R. Guadalupe, Electrochemical and Spectroscopical Characterization of Ferrocenyl Chalcones, J ELECTROCHEM SOC. 157 (8), F104-F110. (2010).
  4. Miranda F. A., M.A. Meador, O. Theofylaktos, N. J. Pinto, C.H. Muller and J. Santos-Perez, Graphene-based reversible Nano-switch/sensor Schottky Diode, NASA Tech Briefs. 34 (24). (2010).
  5. Ortiz-Camacho A. and G. Cabrera-Cruz and P. Negrón-Marrero, Finite element method simulations of composite materials, PROC NAT CONF UND RES. (2010).
  6. Pinto N. J., Integration of nanoscience into the undergraduate curriculum via simple experiments based on electrospun polymer nanofibers, Nanotechnology in Undergraduate Education, ACS SYMP SER. 1010 (EdS). (2010).
  7. Reyna M. and I. Ramos, Characterization of antimony-doped tin oxide nanofibers, PROC NAT CONF UND RES. (2010).
  8. Rivera A., J. Morales, and J. Sotero, Computation of the Electrostatic Potentials in a Molecular Dynamics Simulation using GPU, PROC NAT CONF UND RES. (2010).
  9. Rojas R., A. Meléndez, I. Ramos, J. J. Santiago-Avilés and N.J. Pinto, Field effect devices and sensors based on electrospun polymer assisted tin oxide nanoribbons, J NANOSCI NANOTECHNO. 10, 2811-2815. (2010).
  10. Santa-Olivo L., J. Robles-García and I. Ramos, Electrospun Tin Oxide Nanofibers Decorated with Ag Nanoparticles, PROC NAT CONF UND RES. (2010).
  11. Santiago M., G. Daniel, A. David, B. Casañas, G. Hernández, A. R. Guadalupe and J. Colón, Effect of enzyme and cofactor immobilization on the response of ethanol oxidation in zirconium phosphate modified biosensors, ELECTROANAL. 22 (10), 1097-1105. (2010).
  12. Somers L. A., N. A. Zimbovskaya, A.T. Johnson and E. J. Mele, Nanoparticle shape selection by repulsive interactions: Metal islands on few-layer graphene, PHYS REV. B 82, 115430. (2010).
  13. Wang Y., Ramos R. and Santiago-Aviles J. J., Diversity of Nanofibers from Electrospinning: from Graphitic Carbons to Ternary Oxides, NANOFIBER, Ashok Kumar (Ed.). ISBN: 978-953-7619-86-2. (2010).
  14. Wang Y., I. Ramos and J. Santiago-Avilés, Electrical Characterization of a Single Electrospun Porous Nanostructured Tin Oxide Ribbon, J NANO SCI NANOTECHNO. 10 (3), 1884-1890. (2010).
  15. Zimbovskaya N. A., Inelastic Effects in The Electron Transport Through Molecular Junctions, In: Handbook of Nanophysics, Vol. VI: Nanoelectronics and Nanophotonics (Ed. by K. Sattler, Taylor and Francis, New York, 2010), Ch.10, pp. 1-19.
  16. Zimbovskaya N. A., On the Electron Transport in Conducting Polymer Nanofibers, NANOFIBERS, Ashok Kumar (Ed.), ISBN: 978-953-7619-86-2. (2010).
  17. Zimbovskaya N. A., Inelastic effects in the electron transport through molecular junctions: a brief overview, J COMPT THEOR NANOS. 7. (2010).
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2009

  1. Carrasquillo K. and N. Pinto, Electrical Characterization of Crossed Nanofibers of Polyaniline and SnO2 prepared by Electrospinning, PROC NAT CONF UND RES, April 16-18, 2009, La Crosse, WI.
  2. Cruz-Rosado Y. and P. Negrón, Mathematical Model for Detecting Diabetes, PROC NAT CONF UND RES, April 16-18, 2009, La Crosse, WI.
  3. Martínez O., A. Bravo and N. Pinto, Dielectric Permittivity of Salmon DNA as a Function of Frequency, PROC NAT CONF UND RES, April 16-18, 2009, La Crosse, WI.
  4. Martínez O., A. Bravo, and N. J. Pinto, Fabrication of Poly(vinylidene fluoride-trifluoroethylene)/Poly(3,4-ethylenedioxythiophene)-Polystyrene Sulfonate Composite Nanofibers via Electrospinning, MACROMOLECULES, 42, 20, 7924–7929(2009).
  5. Meléndez A., K. Morales, I. Ramos, E. Campo and J. J. Santiago-Avilés, Preparation and Properties of Electrospun Gallium Nitride Nanofibers, Proc. IEEE P-NANO 2009, July 26-30, 2009, Genoa, Italy.
  6. Meléndez A., K. Morales, I. Ramos, E. Campo and J. J. Santiago-Avilés, Synthesis and Characterization of Electrospun Gallium Nitride Nanofibers, SPIE PROC SER, August 2-6, 2009, San Diego, California.
  7. Morales J., A. Rivera-Rodríguez, D. Velázquez, R. Johnson, and J. Sotero, A GUI for the Analysis of Electrostatic Interactions in Molecular Dynamics Simulations, PROC NAT CONF UND RES, April 16-18, 2009, La Crosse, WI.
  8. Ortiz Camacho A., G. Cabrera-Cruz, and P. Negrón, The Problem of the Nonlinear Cantilever, PROC NAT CONF UND RES, April 16-18, 2009, La Crosse, WI.
  9. Pinto N. J., K. Carrasquillo, C. M. Rodd, and R. Agarwal, Rectifying junctions of tin oxide and poly(3-hexylthophene) nanofibers fabricated via electrospinning, APPL PHYS LETT. 94:083504 (2009).
  10. Pinto N. J., KAO Pacheco, RW Schwenz and WE. Jones, Integration of nanoscience into the undergraduate curriculum via simple based on electrospun polymer nanofibers, Nanotechnology in Undergraduate Education. 1010, 155-166. (2009).
  11. Rivera R. and N. J. Pinto, Schottky diodes based on electrospun polyaniline nanofibers: Effects of varying fiber diameter and doping level on device performance, PHYSICA E. 41, 423-26. (2009).
  12. Rivera R., N. Pinto, I. Ramos and R. Agarwal, Fabrication and Testing of SnO2 Nanoribbon Gas Sensors via Electrospinning, PROC NAT CONF UND RES, April 16-18, 2009, La Crosse, WI.
  13. Rodríguez J. and N. Pinto, Electrical Characterization of Crossed Electrospun Tin Oxide Nanoribbons in a Field Effect Transistor Configuration, PROC NAT CONF UND RES, April 16-18, 2009, La Crosse, WI.
  14. Wang Y., I. Ramos, and J. Santiago, Electrical characterization of a single electrospun porous nanostructured tin oxide ribbon, J NANOSCI NANOTECHNO, In Print (2009).
  15. Zimbovskaya N., M. R. Pederson, A. S. Blum, B. R. Ratna, and R. Allen, Nanoparticle networks as chemoselective sensing devices, J CHEM PHYS. 130, 094702 (2009).
  16. Zimbovskaya N., and M. M. Kuklja, Vibration-induced inelastic effects in the electron transport throught multisite molecular bridges, J CHEM PHYS. 131 (11), 20. 11470, (2009).
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2008

  1. Bravo A. and N. Pinto, Schottky Diode Based on a Thin Film of 4-polyethylenedioxythiophenepolystyrenesulfonate, Proc. Nat. Conf. for Undergraduate Research (NCUR), Apr 10-12, 2008, Salisbury University, Salisbury, MD.
  2. Cruz Y. and J. Sotero, On the Construction of State Transfer Matrices of Close, Proc. National Conference on Undergraduate Research (NCUR), Salisbury University, Salisbury, MD, Vol 22 (2008).
  3. Díaz Serrano M., A. Rosado, J. del Pilar, E. Vega, and A. R. Guadalupe, Design, construction and analytical Characterization of a DNA sensor for the detection of salmonella, Polym. Mater. Sci. Eng. 98:448-449 (2008).
  4. Martínez O., N. Pinto and I. Ramos, Aliphatic Alcohol Vapor Sensors based on Fibers of 4-Polyethylenediothiophene-Polystyrenesulfonate, Proc. National Conference on Undergraduate Research (NCUR), Salisbury University, Salisbury, MD, Vol. 22 (2008).
  5. Meléndez A., I. Ramos and N. Pinto, Fabrication of Gallium Nitride Nanofibers using Electrospinning and Thermal Decomposition, Proc. National Conference on Undergraduate Research (NCUR), Proc., Salisbury University, Salisbury, MD, Vol. 22 (2008).
  6. Merced M. and J. Sotero, Study of Stable Conformations of CNT-DNA Hybrids by Means of Principal Component Analysis, Proc. National Conference on Undergraduate Research (NCUR), Salisbury University, Salisbury, MD, Vol. 22 (2008).
  7. Pantojas V.M., Rodriguez D., Morell G., Rivera A., Ortiz C., Santiago J., Otaño W. et. al. Synthesis of palladium with different nanoscale structures by sputtering deposition on to fiber templates, J. Nanophoton. 2,021925: 1-12 (2008).
  8. Pinto N. J., I. Ramos, R. Rojas, P. C. Wang, and A.T. Johnson Jr, Electric response of isolated electrospun polyaniline nanofibers to vapors of aliphatic alcohols, Sens. Actuators, B 129:621-627 (2008).
  9. Pinto N. J., Two experiments in physics based on electrospun polymer nanofibers, Am. J. Phys. 76, 1-5 (2008).
  10. Ramos I., R. A. Rivera, N. J. Pinto, J. Sotero, E. Vega, N. Zimbovskaya, P. Negrón, M. Rivera, and G. Colón, The Humacao Strange Matter Exhibition: PREM brings Materials Science and Nanotechnology to Puerto Rican Communities, Mater. Res. Soc. Symp. Proc. 1105 (2008).
  11. Rojas R. and N. J. Pinto, Using electrospinning for the fabrication of rapid response gas sensors based on conducting polymer nanowires, IEEE Sens. J. 8:951-953 (2008).
  12. Rosario M., P. Deria, M. Therien, P. Gopu, J. Sotero, and J. J. Santiago, Single Wall Carbon Nanotubes /Poly(pnaphtaleneethylene) Composites as Electrode Materials for SuperCapacitors Applications, Proc. Ibersensor, Sao Paulo, Brasil, Ch. 1, pp. 23 (2008).
  13. Santana D. and E. Vega, Probe Size Determination for the Detection of the OMPC Gener in “Salmonella” and other “Enterobactericiae”, Proc. National Conference on Undergraduate Research (NCUR), Salisbury University, Salisbury, MD, Vol. 22 (2008).
  14. Zimboskaya N. and G. Gumbs, On the low frequency electromagnetic waves in quasi-two-dimensional metals, Solid State Commun. 146:88-91 (2008).
  15. Zimboskaya N., Effect of Fermi-liquid interactions on the low temperature de Has-van Alphen oscillations in quasi-two-dimensional conductors, J. Phys. Cond. Matter 20: 155105 (2008).
  16. Zimboskaya N., Electron transport through a quantum dot in the Coulomb blockade regimen: Non equilibrium Green´s function based model, Phys. Rev. B 78: 035331 (2008).
  17. Zimboskaya N., Inelastic electron transport in polymer nanofibers, J. Chem. Phys. 129 (1). (2008).
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2007

  1. Blum L and D. Pérez, Towards an analytical theory for charged hard spheres, Condens. Matter Phys. 103(51): 381-385 (2007).
  2. Colón J. and R. Furlan, Study of Electrospinning of Aqueous Solutions with Polyethyleneoxide and the use of a Secondary Electrode, Proc. National Conference on Undergraduate Research (NCUR), Dominican University of California, San Diego, CA, Vol 21 (2007).
  3. Figueroa G., I. Ramos, N. Pinto, and J. Santiago, Detection of Oxygen, 2-Propanol and Methanol using Tin Oxide Nanofibers, Proc. National Conference on Undergraduate Research(NCUR), Dominican University of California, San Diego, CA, Vol 21, (2007).
  4. Furlan R., E.W. Simoes, M.L.P. da Silva, I. Ramos, and E. Fachini, Modeling of composite fiber production with silica nanoparticles dispersed in polyethylene oxide, Polymer 48:5107-5115 (2007).
  5. Huang D., K. Uppireddi, V. M. Pantojas, W. Otaño-Rivera, B. R. Weiner, and G. Morell, Characterization of radio-frequency sputtered AlN films by spectroscopic ellipsometry, Nanocoatings, SPIE Optics and Photonics Conf. Proc., San Diego, California (2007).
  6. León N., A. Meléndez, G. Figueroa, I. Ramos, and N. J. Pinto, Electrospun tin oxide nanofibers for gas sensing applications,Proc. SPIE Nanotechnology II, 6591: 65910G (2007).
  7. León N., I. Ramos, N. Pinto, and J. Santiago, Magnetoresistance of Electrospun Antimony-doped Tin Oxide Nanofibers, Proc. National Conference on Undergraduate Research (NCUR), Dominican University of California, San Rafael, CA, Vol. 21 (2007).
  8. León-Brito N., A. Melendez, Y. Wang, I. Ramos, N. Pinto, and J. J. Santiago-Avilés, Electrical properties of Sb-doped tin oxide nanofibers, J. Phys. Conf. Ser. 61:683-687 (2007).
  9. Meléndez A., I. Ramos, N. Pinto, and J. Santiago, Electronic Transport Mechanism in Tin Oxide Nanoribbons, Proc. National Conference on Undergraduate Research (NCUR), Dominican University of California, San Rafael, CA, Vol. 21 (2007).
  10. Meléndez A., Y. Wang, I. Ramos, N. Pinto, and J. J. Santiago-Avilés, Electronic properties of electrospun tin oxide nanofibers, J. Phys. Conf. Ser. 61:688-692 (2007).
  11. Merced M. and J. Sotero, Metrics for the Study of DNA-CNT Hybrids, Proc. National Conference on Undergraduate Research (NCUR),  Dominican University, San Rafael, CA, Vol. 21 (2007).
  12. Otaño W., A. Otero, J. M. Otaño, C. S. Otaño, J. J. Santiago, and V. M. Pantojas, Formation of palladium structures combining electrospinning and dc sputtering, in Structure, Mater. Res. Soc. Symp. Proc. Vol. 948E, Warrendale, PA, paper # 0948-B05-12 (2007).
  13. Otaño W., V. M. Pantojas, J. M. Figueroa, D. Hernández, and A. Rodríguez-Navarro, Magnetron sputtering deposition of calcium phosphate films with nanoscale grain morphology in their surface, Mater. Res. Soc. Symp. Proc. Vol. 975E, Warrendale, PA, paper #0975-DD06-08 (2007).
  14. Pérez R., N. J. Pinto, and A.T. Johnson Jr., Influence of temperature on charge transport and device parameters in an electrospun hybrid organic/inorganic semiconductor Schottky diode, Synth. Met. 157:231-234 (2007).
  15. Rivera R., A. Meléndez, N. Pinto, and I. Ramos, Influence of Various Gases on the Device Characteristics of Regioregular Poly(3-Hexylthiophene) Thin Film Field Effect Transistor, Proc. National Conference on Undergraduate Research (NCUR), Dominican University of California, San Diego, CA, Vol. 21 (2007).
  16. Santiago J., R. Furlan, and J. Sotero, Development of LTCC Based Miniaturized Combustors, IMAPS New England, 34th Annual Symposium and Expo (2007). Awarded Best Paper in Conference.
  17. Sotero-Esteva J. and M. Merced, Conformation of ssDNA around swCNTs, Proc. of the 7th Southern School on Computational Chemistry and Materials Science, 8788 (2007).
  18. Sotero-Esteva J., R. Furlan, and J. Santiago-Avilés, On the relation between geometric and flow properties of a miniaturized fluid oscillator in C. Brebbia (Ed.) Computational Methods and Experimental Measurements XIII, WIT Press, Southampton, UK, 297-317 (2007).
  19. Wang Y., I. Ramos, and J. J. Santiago-Avilés, Detection of Moisture and Methanol Gas Using a Single Electrospun Tin Oxide Nanofiber, IEEE Sens. J. 7(9): 1347-1348 (2007).
  20. Wang Y., I. Ramos, and J. J. Santiago-Avilés, Electrical characterization of a single electrospun porous SnO2 nanoribbon in ambient air, Nanotechnology 18: 435704 (2007).
  21. Wang Y., I. Ramos, and J. J. Santiago-Avilés, Optical Bandgap and Photoconductance of Electrospun Tin Oxide Nanofibers, J. Appl. Phys. 102:093517 (2007).
  22. Wang Y., I. Ramos, and J. J. Santiago-Avilés, Process Characterization of Ultrafine Tin Oxide Fibers Synthesis, Mat. Res. Soc. Symposium Proc., Vol. 951 (2007).
  23. Wang Y., I. Ramos, and J. J. Santiago-Avilés, Synthesis of ultra-fine porous tin oxide fibres and its process characterization, Nanotechnology 18:295601 (2007).
  24. Wang Y., I. Ramos, and J. J. Santiago-Avilés, Temperature dependence of electrical conductance in a single porous SnO2 nanoribbon, Proc. SPIE Nanotechnology II, 6591: 65910E (2007).
  25. Zimboskaya N., Inelastic electron transport in polymer nanofibers, Cond. Matter, cond-mat/0608591 (2007).
  26. Zimbovskaya N., Fermi-liquid and Fermi surface geometry effects in propagation of low frequency electromagnetic waves through thin metal films, Phys. Rev. B 76:075104 (2007).
  27. Zimbovskaya N., On the de Haas - van Alphen oscillations in quasi-two-dimensional metals: effect of the Fermi surface curvature, J. Phys. Condens. Matter 19:176227 (2007).
  28. Zimbovskaya N., On the dissipative effects in the electron transport through conducting polymer nanofibers, J. Chem. Phys. 126:184901 (2007).

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2006

  1. Blum L. and M. Arias, Thermodynamics of the soft and extended soft hmean spherical model, Mol. Phys. 104 (22-24):3801-3808 (2006).
  2. Da Silva M.L.P, R. Furlan, and I. Ramos, Development of Miniaturized Structures and Setups for Research and Teaching of New Concepts in Engineering, Proc. 9th International Conference on Engineering Education , San Juan, P.R. (M5A):11-16 (2006).
  3. Da Silva M.L.P., R. Furlan, I. Ramos, and E. Fachini, Electrospinning of Silica Nanoparticles Dispersed in an Organic Polymeric Matrix, Proc. 11th IMCS Congress, Brescia, Italy (2006).
  4. Figueroa G. and I. Ramos, Ultraviolet Photoconduction Properties of Tin Oxide Nanofiber Devices, Proc. National Conference on Undergraduate Research (NCUR), University of North Carolina, Asheville, NC, Vol 20, (2006).
  5. Furlan R., J.M. Castillo Colón, I. Ramos and J. J. Santiago-Avilés, Study of laser milling of sintered LTCC, quartz, and pyrex substrates for meso and micro fluidic applications, Proc. of CICMT 2006: IMAPS/ACerS 2nd International Conference and Exhibition on Ceramic Interconnect and Ceramic Microsystems Technologies, Denver CO, WP37 (2006).
  6. Furlan R., M. L. P. Da Silva, E. Wagner Simoes, R. E. Bruzetti-Leminski R., and J. J. Santiago-Avilés, Visualization of internal liquid flow interactions in meso planar structures, Flow Meas. Instrum. 17:298-302 (2006).
  7. González R., N. J. Pinto N.J., and A. T. Johnson Jr., Schottky effects in doped conducting polymer thin films and nanofibers, Proc. National Conference on Undergraduate Research (NCUR),University of North Carolina, Asheville, Vol. 20 (2006).
  8. Izquierdo F. and J. Sotero, Construction of Lists of Neighbors of Points by Means of Delauney Triangulations, Proc. National Conference on Undergraduate Research (NCUR), University of North Carolina, Asheville, NC, Vol. 20 (2006).
  9. León N. and I. Ramos, Electrical Characterization of Electrospun Antimony-Doped Tin Oxide Nanofibers, Proc. National Conference on Undergraduate Research (NCUR), University of North Carolina, Asheville, NC, Vol. 20 (2006).
  10. Meléndez A. and I. Ramos, Electronic Transport Properties of Tin Oxide Nanofibers, Proc. National Conference on Undergraduate Research (NCUR), University of North Carolina, Asheville, NC, Proc. 20 (2006).
  11. Mueller C.H., N. Theofylaktos, F. A. Miranda, A. T. Johnson Jr., and N. J. Pinto, Demonstration of Logic AND Device Using a Split-Gate Pentacene Field Effect Transistor, Thin Solid Films 496/2:494-499 (2006).
  12. Pérez-Tolentino M. and R. Furlan, Fabrication of Meso Combustor Structure Using Electronics Packaging Ceramics (LTCC), Proc. National Conference on Undergraduate Research (NCUR),University of North Carolina, Asheville, NC, Vol. 20 (2006).
  13. Pinto N. J., R. González, A. T. Johnson Jr., and A. G. MacDiarmid, Response to Comment on [Electrospun hybrid organic/inorganic semiconductor Schottky nanodiode], Appl. Phys. Lett. 98:176102 (2006).
  14. Pinto N. J., R. González, A.T. Johnson Jr., and A. G. MacDiarmid, Electrospun hybrid organic/inorganic semiconductor Schottky nanodiode, Appl. Phys. Lett. 89:033505 (2006).
  15. Pinto N. J., R. Pérez, C.H. Mueller, N. Theofylaktos, and F.A. Miranda, Dual input AND gate fabricated from a single channel poly(3-hexylthiophene) thin film field effect transistor, J. Appl. Phys. 99, 084504 (2006).
  16. Rivera R., N. J. Pinto, and A. T. Johnson Jr., Dual input and gate fabricated from a single channel alpha-sexithiophene thin film effect, Proc. National Conference on Undergraduate Research (NCUR), University of North Carolina, Asheville, NC, Vol. 20 (2006).
  17. Santiago Aviles J.J., R. Furlan, P. Espinoza-Vallejos, and M. Perez-Tolentino, Development of an LTCC based small combustor, Proc. of CICMT 2006: IMAPS/ACerS 2nd International Conference and Exhibition on Ceramic Interconnect and Ceramic Microsystems Technologies, Denver, Colorado, paper TP11 (2006).
  18. Sotero-Esteva J., Simulation of Miniaturized Fluidic Oscillators using COMSOL Script, Proc. COMSOL Users Conference, Boston, MA. pp. 353-356 (2006).
  19. Wagner Simoes E., R. E. Bruzetti Leminski, M. R. Gongora-Rubio, F. Garcia Soriano, L. Angnes, R. Furlan, and M. Bariatto Andrade Fontes, Blood flow system fabricated using Low Temperature Co-fired Ceramics (LTCC), Proc. of CICMT 2006: IMAPS/ACerS 2nd Intern. Conf. Ceramic Interconnect and Ceramic Microsystems Technologies, Denver, CO, WP13 (2006).
  20. Wagner Simoes E., S. Gasparotto de Souza, M. L. Pereira da Silva, H. E. Maldonado Peres, and R. Furlan, Study of preconcentration of non-polar compounds in microchannels with constrictions, Sens. Actuators, B:115/1: 232-239 (2006).
  21. Wang Y., M. Aponte, N. León, I. Ramos, R. Furlan, N. Pinto, and J. J. Santiago-Avilés, Tin Oxide Micro/Nano fibers from electrostatic deposition, Rev. Mex. Fis. 52(2): 42-44 (2006).
  22. Zimbovskaya N. A., Effect of the Fermi surface shape on the Hass-vab Alphen oscillations in layered conductors, J. Exp. Theor. Phys Lett. 83(5):217-220 (2006).
  23. Zimbovskaya N., Fermi-liquid theory of the surface impedance of a metal in a normal magnetic field, Phys. Rev. B 74 035110:1-9 (2006).
  24. Zimbovskaya N., Local flattening of the Fermi surface and quantum oscillations in the magnetoacoustic response of a metal, Solid State Commun. (138):559-562 (2006).
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2005

  1. Bruzetti Leminski R.E., E. Wagner Simões, R. Furlan, I. Ramos, M. R. Gongora-Rubio, N. Itiro Morimoto, and J. J.  Santiago-Avilés, Development of Microfluidic Devices using LTCC Substrates, Proc. IMAPS/ACerS 1st International Conference on Ceramic Interconnect and Ceramic Microsystems Technologies (CICMT), Baltimore, MD, Baltimore, 337-342 (2005).
  2. Carrion P. and N. J. Pinto, Field Effect Transistor Based on Pentacene, Proc. National Conference for Undergraduate Research (NCUR), Washington and Lee University and Virginia Military Institute, Lexington, VA, Vol. 19 (2005).
  3. Enriquez A. and L. Blum, Scaling in Complex Systems: Analytical Theory of Charged Pores, Cond. Matter Phys. B: Widom Issue, physics/0505009v4 (2005).
  4. Espinoza-Vallejo P., J. Sotero-Esteva, R. Furlan, and J. J. Santiago-Avilés, Modeling of an LTCC mixer/combustor, Proc. Comsol Users Conference, Cambridge, MA, 115-118, (2005).
  5. Furlan R., M. Pérez, I. Ramos, and J. J. Santiago-Avilés, Fabrication of microfluidic oscillators by laser milling in sintered LTCC and quartz substrates, IMAPS/ACerS 1st International Conference on Ceramic Interconnect and Ceramic Microsystems Technologies (CICMT), Baltimore, MD, 233-238 (2005).
  6. González R. and N. J. Pinto, Dielectric Properties of Rb1-x(NH4)xH2Po4(RADP) as a Function of Temperature, Proc. National Conference for Undergraduate Research (NCUR), Washington and Lee University and Virginia Military Institute. Lexington, VA, Vol. 19 (2005).
  7. González R. and N. J. Pinto, Electrospun poly(3-hexylthiophene-2,5-diyl) fiber field effect transistor, Synth. Met. 151:275-278 (2005).
  8. León N., G. Figueroa, and I. Ramos, Characterization of Electrospun Tin Oxide Ultrafine Fibers, Proc. National Conference for Undergraduate Research (NCUR), Washington and Lee University and Virginia Military Institute, Lexington, VA, Vol. 19 (2005).
  9. León N., G. Figueroa, Y. Wang, I. Ramos, J. J. Santiago-Avilés, R. Furlan, and N. Pinto, Electrospun Tin Oxide Nanofibers, Proc. SPIE Nanotechnology II 5838: 21-28 (2005).
  10. Muñoz-Serrano L., A. R. Guadalupe, and E. Vega-Bermúdez, Morphological Studies of oligodeoxyribonucleotides probes covalently immobilized at polystyrene modified surfaces, J. Biotech. 118(2):233-245 (2005).
  11. Neris W. and I. Ramos, Development and Characterization of Microfluidic Channels on Low Temperature Co-Fired Ceramics, Proc. National Conference for Undergraduate Research (NCUR), Washington and Lee University and Virginia Military Institute, Lexington, VA, Vol. 19 (2005).
  12. Pantojas V.M., W. Otaño-Rivera, and J. N. Caraballo, Statistical analysis of the effect of deposition parameters on the preferred orientation of sputtered AlN thin films, Thin Solid Films 492, 118 (2005).
  13. Pérez M. and R. Furlan, Study of Laser Milling of Sintered LTCC and Quartz Subtrates for Microfluidic Applications, Proc. National Conference for Undergraduate Research (NCUR), Washington and Lee University and Virginia Military Institute. Lexington, VA, Vol. 19 (2005).
  14. Pinto N. J., P. L. Carrión, A. M. Ayala, and M. Ortíz Marciales, Temperature dependece of the resistance of self assembled polyaniline nanotubes doped with with 2-acrylamido-2- methyl-1-propanesulfonic acid, Synth. Met. 148(3):271-274 (2005).
  15. Rodrigues da Silva A.N., R. Furlan, I. Ramos, and J. J. Santiago-Avilés, Electrostatic deposition of nanofibers for sensor application, Mater. Res. 8(1):105-108 (2005).
  16. Santagelo C.D. and L. Blum, The interaction between two rows of localized adsorption sites in a 2-D one component plasma. Cond. Matter Phys. 8, 325, D. Henderson issue cond-mat/0412597v1 (2005).
  17. Simoes E.W., R. Furlan, R. E. Bruzetti Leminski, M. R. Gongora-Rubio, M. Tadeu Pereira, N. I. Morimoto, and J. J. Santiago-Aviles, Microfluidic oscillator for gas flow control and measurement, Flow Meas. Instrum. 16(1):7-12 (2005). Paper selected by microTAs (a virtual Total Analysis Systems, Elsevier), Category Microfluidic Components, 5:1 (2005).
  18. Staii C., R. Shao., D. A. Bonnell, N. J. Pinto, and A. T. Johnson Jr., Scanning conductance microscopy and high frequency scanning gate microscopy of carbon nanotubes and polyethylene based nanofibers, Mater. Res. Soc. Symp., Vol. 838E09.8.1. (2005).
  19. Wang Y., M. Aponte, N. León, I. Ramos, R. Furlan, S. Evoy, and J. J. Santiago-Avilés, Synthesis and characterization of ultrafine tin oxide fibers using electrospinning, J. Amer. Ceram. Soc. 88(8):2059-2063 (2005).
  20. Zimboskaya N., Low temperature electronic transport through macromolecules and characteristics of intramolecular electron transfer, J. Chem. Phys., 123:114708 (2005).
  21. Zimbovskaya N. and G. Gumbs, Local geometry of the Fermi surface and the cyclotron resonance in metals in a normal magnetic field. Phys. Rev. B 72, 045112 (2005).
  22. Zimbovskaya N., A. T. Johnson Jr., and N. Pinto, Electronic transport mechanism in conducting polymer nanofibers, Phys. Rev. B 72:024213 (2005).
  23. Zimbovskaya N., Local geometry of the Fermi surface and quantum oscillations in the linear response of metals, J. Phys.: Condens. Matter 17:6235-6243 (2005).
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2004

  1. Blum L., and O. Bernard, Analytical Theory of Polyelectrolytes, Proc. Intern. School of Physics: Enrico Fermi, 155:35(2004)
  2. Blum L., N. Marzari, and R. Car, On the Mechanism of the Hydrogen/Pt(111) fuel cell, J. Phys. Chem., B: F.H. Stillinger issue 18:19670 (2004).
  3. Castillo R. and R. Furlan, Fabrication of microfluidic devices in Low Temperature Co-Fired ceramic substrates using micromolding, Proc. National Conference for Undergraduate Research (NCUR), Indiana University-Purdue University, Indianapolis, Indiana, Vol. 18 (2004).
  4. Castillo R., E. Wagner Simoes, R. Furlan, R. E. Bruzetti Leminski., M. R. Gongora-Rubio, and J. J. Santiago-Avilés, Development of micromolds and application with LTCC substrates to obtain microfluidic devices, Proc. Ceramic Interconnect Technology Conference (IMAPS 2004) 1:139-143 (2004).
  5. Díaz Martínez R., A. N. Rodrígues da Silva., R. Furlan, I. Ramos, and J. J. Santiago-Avilés, Analysis of electrospinning of nanofibers as a function of polyacrylonitrile (PAN) concentration, Electrochem. Soc. Proc., 3:277-282 (2004).
  6. Figueroa-Freytes G. and I. Ramos, Dielectric Characterization of Sintered Low Temperature Co-Fired Ceramics, Proc. National Conference for Undergraduate Research (NCUR), Indiana University-Purdue University, Indianapolis, IN, Vol. 18, (2004).
  7. Fracassi da Silva J. A., R. Furlan, E. Wagner-Simoes, M. L. Pereira da Silva, and Tadeu-Pereira, M., Simulation of silicon microstructure for reconcentration of metallic ions, J. Integr. Circuits Syst. 1:13-16 (2004).
  8. León N., M. Aponte, and I. Ramos, Synthesis and Characterization of Tin Oxide Fibers. Proc. National Conference for Undergraduate Research (NCUR), Indiana University-Purdue University, Indianapolis, IN, Vol. 18 (2004).
  9. Ortíz, J., R. Pérez, and N. Pinto, An easy method to fabricate closely spaced metal electrodes using electrospinning, Proc. National Conference for Undergraduate Research (NCUR), Indiana University-Purdue University, Indianapolis, IN, Vol. 18 (2004).
  10. Pérez R., N. Pinto, and I. Ramos, Electrical characterization of polyaniline synthesized using one-phase emulsion poymerization process, Proc. National Conference for Undergraduate Research (NCUR), Indiana University-Purdue University, Indianapolis, IN, Vol. 18 (2004).
  11. Pinto N., P. Carrión, and J. X. Quiñones (2004),Electroless deposition of nickel on electrospun fibers of 2-acrylamido-2-methyl-1-propane-sulfonic acid doped polyaniline, Mater. Sci. Eng, A 366:1-5 (2004).
  12. Ramos I., A. D. Rodríguez, M. L. P. Da Silva, R. Furlan, J. J. Santiago-Avilés, and L. Solá-Laguna, PanAmerican Collaboration on Micro-and Nano-technology Education in W. Aung (Ed.), World Innov. in Eng. Education and Research, Ch. 38, pp.433 (2004).
  13. Ramos I., N. León, G. Figueroa, A. Meléndez, Y. Wang, N. Pinto, R. Furlan, and J. J. Santiago-Avilés, Electrical Characterization of Tin Oxide Micro/Nanofibers, Proc. ICCE-12, Tenerife, Canary Islands, Spain (2004).
  14. Sevillano M., W. Rosado, and J. Sotero, Simulation of Etching Processes for MEMS Using Cellular Automata, Proc. Computing Research Conference, Vol 6, Mayaguez, PR (2004).
  15. Staii C., A. T. Johnson Jr., and N. J. Pinto (2004) Quantitative analysis of scanning conductance microscopy,Nano Lett. 4:859-862 (2004).
  16. Staii C., N. J. Pinto, and A. T. Johnson Jr., Scanning conductance microscopy of Carbon nanotubes and polyethylene oxide nanofibers, AIP Conf. Proceedings, 723:129 (2004).
  17. Wang Y., I. Ramos, R. Furlan, and J. J. Santiago-Avilés (2004) Electronic Transport Properties of Incipient Graphitic Domains Formation in PAN Derived Carbon Nanofibers, IEEE Trans. Nanotechnol. 4(4):80-85 (2004).
  18. Wang Y., M. Aponte, N. León, I. Ramos, R. Furlan, S. Evoy, and J. J. Santiago-Avilés, Synthesis and characterization on microfibres electrospun from a simple precursor solution, Semicond. Sci. Technol. 19, 1057-1060 (2004).
  19. Wang Y., R. Furlan, I. Ramos, and J. J. Santiago-Avilés (2004) Synthesis and characterization of micro/nanoscopic Pb(Zr0.52 Ti0.48)O3 fibers by electrospinning, Appl. Phys. A 78:1043-1047 (2004).
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