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Nanoscience Bibliography


The sources listed here allow you to delve more deeply into the AFM/SPM-related research and subject matter that interests you the most. Please click on the paper title to order your PDF copy.

  1. Electrooxidation of Carbon Monoxide on Gold Nanoparticle Ensemble Electrodes: Effects of Particle Coverage
    Kumar, S.; Zou, S.
    The Journal of Physical Chemistry B; 109(33); pp. 15707-15713
  2. Novel Method for Deposition of Gold-Prussian Blue Nanocomposite Films Induced by Electrochemically Formed Gold Nanoparticles: Characterization and Application to Electrocatalysis
    Kumar, S. S.; Joseph, J.; Phani, K. L.
    Chemistry of Materials; 19(19); pp. 4722-4730
  3. Electrodeposition of Biferrocene Derivative-Attached Gold Nanoparticles: Solvent Effects and Lithographic Assembly
    Yamada, M.; Nishihara, H.
    Langmuir; 19(19); pp. 8050-8056
  4. The effect of the shape of a tip's apex on the fabrication of an AFM tip with an attached single carbon nanotube
    Hyung Woo Lee, Soo Hyun Kim, Yoon Keun Kwak, Eung Sug Lee and Chang Soo Han
    Sensors and Actuators A: Physical, Volume 125, Issue 1, 21 October 2005, Pages 41-49
  5. Sum Frequency Generation Vibrational Spectroscopy Studies of Protein Adsorption on Oxide-Covered Ti Surfaces
    Paszti, Z.; Wang, J.; Clarke, M. L.; Chen, Z.
    The Journal of Physical Chemistry B; 108(23); pp. 7779-7787
  6. Core/Shell Quantum-Dot-Photosensitized Nano-TiO2 Films: Fabrication and Application to the Damage of Cells and DNA
    Lu, Z.-X.; Zhang, Z.-L.; Zhang, M.-X.; Xie, H.-Y.; Tian, Z.-Q.; Chen, P.; Huang, H.; Pang, D.-W.
    The Journal of Physical Chemistry B; 109(47); pp. 22663-22666
  7. Large-Scale Fabrication of Protein Nanoarrays Based on Nanosphere Lithography
    Cai, Y.; Ocko, B. M.
    Langmuir; 21(20); pp. 9274-9279
  8. Surface-Assisted Assembly of an Ionic-Complementary Peptide: Controllable Growth of Nanofibers
    Yang, H.; Fung, S.-Y.; Pritzker, M.; Chen, P.
    Journal of the American Chemical Society; 129(40); pp. 12200-12210
  9. Adsorption and combing of DNA on HOPG surfaces of bulk crystals and nanosheets: application to the bridging of DNA between HOPG/Si heterostructures
    F Rose, P Martin, H Fujita, H Kawakatsu
    Nanotechnology, 17 (13), p.3325-3332
  10. Analysis of structural order in amyloid fibrils
    Tuomas P J Knowles, Jeffrey F Smith, Glyn L Devlin, Christopher M Dobson, Mark E Welland
    Nanotechnology, 18 (4), p.044031
  11. Characterization of Nanobubbles on Hydrophobic Surfaces in Water
    Yang, S.; Dammer, S. M.; Bremond, N.; Zandvliet, H. J. W.; Kooij, E. S.; Lohse, D.
    Langmuir; 23(13); pp. 7072-7077
  12. Influence of surface-adhered nanoparticles and nanoporous structure on particle–particle interaction of silica
    Toshiyuki Kani, Maki Tamonoki, Takahiro Suzuki, Mayumi Tsukada and Hidehiro Kamiya
    Powder Technology, Volume 176, Issues 2-3, 20 July 2007, Pages 99-107
  13. Polarized Infrared Study of Hybrid Langmuir-Blodgett Monolayers Containing Clay Mineral Nanoparticles
    Ras, R. H. A.; Johnston, C. T.; Franses, E. I.; Ramaekers, R.; Maes, G.; Foubert, P.; De Schryver, F. C.; Schoonheydt, R. A.
    Langmuir; 19(10); pp. 4295-4302
  14. Electro Pen Nanolithography
    Cai, Y.; Ocko, B. M.
    Journal of the American Chemical Society; 127(46); pp. 16287-16291
  15. Electro-Nanopatterning of Surface Relief Gratings on Azobenzene Layer-by-Layer Ultrathin Films by Current-Sensing Atomic Force Microscopy
    Baba, A.; Jiang, G.; Park, K.-M.; Park, J.-Y.; Shin, H.-K.; Advincula, R.
    The Journal of Physical Chemistry B; 110(35); pp. 17309-17314
  16. Surface-Enhanced Raman Scattering Investigation of the Adsorption of 2-Mercaptobenzoxazole on Smooth Copper Surfaces Doped with Silver Colloidal Nanoparticles
    Pergolese, B.; Muniz-Miranda, M.; Bigotto, A.
    The Journal of Physical Chemistry B; 110(18); pp. 9241-9245
  17. Langmuir-Blodgett Thin Films of Fe20Pt80 Nanoparticles for the Electrocatalytic Oxidation of Formic Acid
    Chen, W.; Kim, J.; Xu, L.-P.; Sun, S.; Chen, S.
    The Journal of Physical Chemistry C; 111(36); pp. 13452-13459
  18. Self-Organization of 3D Triangular GaN Nanoislands and the Shape Variation to Hexagonal
    Fang, Z.; Kang, J.
    The Journal of Physical Chemistry C; 111(22); pp. 7889-7892
  19. High resolution non-contact AFM imaging of liquids condensed onto chemically nanopatterned surfaces
    Antonio Checco, Yuguang Cai, Oleg Gang and Benjamin M. Ocko
    Ultramicroscopy, Volume 106, Issues 8-9, June-July 2006, Pages 703-708
  20. Volume of a Nanoscale Water Bridge
    Sirghi, L.; Szoszkiewicz, R.; Riedo, E.
    Langmuir; 22(3); pp. 1093-1098
  21. Preparation and Third-Order Optical Nonlinearity of Self-Assembled Chitosan/CdSe-ZnS Core-Shell Quantum Dots Multilayer Films
    Wang, X.; Du, Y.; Ding, S.; Wang, Q.; Xiong, G.; Xie, M.; Shen, X.; Pang, D.
    The Journal of Physical Chemistry B; 110(4); pp. 1566-1570
  22. Quantitative Analysis of Montmorillonite Platelet Size by Atomic Force Microscopy
    Ploehn, H. J.; Liu, C.
    Industrial & Engineering Chemistry Research; 45(21); pp. 7025-7034
  23. Formation of Nanopatterns of a Self-Assembled Monolayer (SAM) within a SAM of Different Molecules Using a Current Sensing Atomic Force Microscope
    Zhao, J.; Uosaki, K.
    Nano Letters; 2(2); pp. 137-140
  24. Making electrical contacts to molecular monolayers
    X D Cui, X Zarate, J Tomfohr, O F Sankey, A Primak, A L Moore, T A Moore, D Gust, G Harris and S M Lindsay
    Nanotechnology, 13 (1), p.5-14
  25. Novel method for the investigation of single nanoparticle reactivity
    J. Meier, K.A. Friedrich, U. Stimming
    Faraday Discussions, 121, pp. 365-372
  26. Three-Dimensional Nanostructure Construction via Nanografting: Positive and Negative Pattern Transfer
    Liu, J.-F.; Cruchon-Dupeyrat, S.; Garno, J. C.; Frommer, J.; Liu, G.-Y.
    Nano Letters; 2(9); pp. 937-940
  27. Force dependent metalloprotein conductance by conducting atomic force microscopy
    Jianwei Zhao, Jason J Davis
    Nanotechnology, 14 (9), p.1023-1028
  28. In-situ nanostructured film formation during physical vapor deposition
    Chi Zhang, Ramki Kalyanaraman
    Applied Physics Letters, Volume 83, Issue 23, pp. 4827-4829
  29. A modified nanosphere lithography for the fabrication of aminosilane/polystyrene nanoring arrays and the subsequent attachment of gold or DNA-capped gold nanoparticles
    Yue Wang, Shubo Han, Alejandro L. Briseno, Raymond J. G. Sanedrin and Feimeng Zhou
    J . M a t e r . C h e m . , 2 0 0 4 , 1 4 , 3 4 8 8 – 3 4 9 4
  30. Fabrication of high-density nanostructures with an atomic force microscope
    Jun-Fu Liu, James R. Von Her, Christof Baur, Richard Stallcup, John Randall, Ken Bray
    Applied Physics Letters, Volume 84, Issue 8, pp. 1359-1361
  31. Vertically aligned carbon nanotube heterojunctions
    Alan M. Cassell, Jun Li, Ramsey M. D. Stevens, Jessica E. Koehne, Lance Delzeit, Hou Tee Ng, Qi Ye, (...), M. Meyyappan
    Applied Physics Letters, Volume 85, Issue 12, pp. 2364-2366
  32. Dendrimer-mediated synthesis of platinum nanoparticles: new insights from dialysis and atomic force microscopy measurements
    Hong Xie, Yunlong Gu and Harry J Ploehn
    Nanotechnology, 16 (7), p.S492-S501
  33. Switching of a photochromic molecule on gold electrodes: single-molecule measurements
    Jin He, Fan Chen, Paul A Liddell, Joakim Andréasson, Stephen D Straight, Devens Gust, Thomas A Moore, Ana L Moore, Jun Li, Otto F Sankey and Stuart M Lindsay
    Nanotechnology, 16 (6), p.695-702
  34. Transistor effects and in situ STM of redox molecules at room temperature
    Albrecht, T.; Guckian, A.; Ulstrup, J.; Vos, J.G.
    Nanotechnology, Volume 4, Issue 4, Page(s):430 - 434
  35. Electrical conduction of carbon nanotube atomic force microscopy tips: Applications in nanofabrication
    Alexander J. Austin, Cattien V. Nguyen, Quoc Ngo
    Journal of Applied Physics, 99
  36. Functionalization of carbon nanotubes with oligonucleotide in solutions — Production of nanotube chips
    Zoltán Kónya, Krisztián Niesz, Imre Kiricsi, Sándor Botka, Zsófia Keresztes and Erika Kálmán
    Journal of Molecular Liquids, Volume 129, Issues 1-2, 15 October 2006, Pages 33-38
  37. Influence of Single-Walled Carbon Nanotubes Induced Crystallinity Enhancement and Morphology Change on Polymer Photovoltaic Devices
    Geng, J.; Zeng, T.
    Journal of the American Chemical Society; 128(51); pp. 16827-16833
  38. Large-scale Si1?x Ge x quantum dot arrays fabricated by templated catalytic etching
    Zhipeng Huang, Yin Wu, Hui Fang, Ning Deng, Tianling Ren, Jing Zhu
    Nanotechnology, 17 (5), p.1476-1480
  39. Nanopatterned self-assembled monolayers
    Gabriel G Baralia, Antoine Pallandre, Bernard Nysten and Alain M Jonas
    Nanotechnology, 17 (4), p.1160-1165
  40. Current measurements in a wide dynamic range—applications in electrochemical nanotechnology
    G´abor M´esz´aros, Chen Li, Ilya Pobelov and ThomasWandlowski
    Nanotechnology, 18 (42), p.424004
  41. Electron flux through apo-and holoferritin
    Danny N Axford, Jason J Davis
    Nanotechnology, 18 (14), p.145502
  42. Functional patterns obtained by nanoimprinting lithography and subsequent growth of polymer brushes
    A Genua, J A Alduncín, J A Pomposo, H Grande1, N Kehagias, V Reboud, C Sotomayor, I Mondragon and D Mecerreyes
    Nanotechnology, 18 (21), p.215301
  43. Nonlinear viscoelastic dynamics of nano-confined water
    Tai-De Li and Elisa Riedo
    arXiv:0707.2521
  44. Visualization of thermally activated nanocarriers using in situ atomic force microscopy
    Mingdong Dong, Kenneth A Howard, David Oupicky, Harender Bisht, Jørgen Kjems and Flemming Besenbacher
    Nanotechnology, 18 (18), p.185501
  45. Iron and Cobalt Oxide and Metallic Nanoparticles Prepared from Ferritin
    Hosein, H.-A.; Strongin, D. R.; Allen, M.; Douglas, T.
    Langmuir; 20(23); pp. 10283-10287
  46. Optical Properties of Metal Nanoshells
    Hao, E.; Li, S.; Bailey, R. C.; Zou, S.; Schatz, G. C.; Hupp, J. T.
    The Journal of Physical Chemistry B; 108(4); pp. 1224-1229
  47. Elastic Property of Vertically Aligned Nanowires
    Song, J.; Wang, X.; Riedo, E.; Wang, Z. L.
    Nano Letters; 5(10); pp. 1954-1958
  48. Adhesion Force Studies of Janus Nanoparticles
    Xu, L.-P.; Pradhan, S.; Chen, S.
    Langmuir; 23(16); pp. 8544-8548
  49. Direct Conjugation of Semiconductor Nanoparticles with Proteins
    Meziani, M. J.; Pathak, P.; Harruff, B. A.; Hurezeanu, R.; Sun, Y.-P.
    Langmuir; 21(5); pp. 2008-2011
  50. Anion Effect on the Nanostructure of a Metal Ion Binding Self-Assembling Peptide
    Yang, H.; Pritzker, M.; Fung, S. Y.; Sheng, Y.; Wang, W.; Chen, P.
    Langmuir; 22(20); pp. 8553-8562
  51. Characterization and Surface Reactivity of Ferrihydrite Nanoparticles Assembled in Ferritin
    Liu, G.; Debnath, S.; Paul, K. W.; Han, W.; Hausner, D. B.; Hosein, H.-A.; Michel, F. M.; Parise, J. B.; Sparks, D. L.; Strongin, D. R.
    Langmuir; 22(22); pp. 9313-9321
  52. Plasmonic Properties of Film over Nanowell Surfaces Fabricated by Nanosphere Lithography
    Hicks, E. M.; Zhang, X.; Zou, S.; Lyandres, O.; Spears, K. G.; Schatz, G. C.; Van Duyne, R. P.
    The Journal of Physical Chemistry B; 109(47); pp. 22351-22358
  53. Assembly of Coordination Nanostructures via Ligand Derivatization of Oxide Surfaces
    Wanunu, M.; Livne, S.; Vaskevich, A.; Rubinstein, I.
    Langmuir; 22(5); pp. 2130-2135
  54. Geometric artefact suppressed surface potential measurements
    Minhwan Lee, Wonyoung Lee, Fritz B Prinz
    Nanotechnology, 17 (15), p.3728-3733
  55. Dithiocarbamate-Capped Silver Nanoparticles
    Tong, M. C.; Chen, W.; Sun, J.; Ghosh, D.; Chen, S.
    The Journal of Physical Chemistry B; 110(39); pp. 19238-19242
  56. Templated synthesis of silver nanowires based on the layer-by-layer assembly of silver with dithiodipropionic acid molecules as spacers
    Sheela Berchmans, R.G. Nirmal, G. Prabaharan, S. Madhu and V. Yegnaraman
    Journal of Colloid and Interface Science, Volume 303, Issue 2, 15 November 2006, Pages 604-610
  57. Micro- and Nanopatterned Star Poly(ethylene glycol) (PEG) Materials Prepared by UV-Based Imprint Lithography
    Lensen, M. C.; Mela, P.; Mourran, A.; Groll, J.; Heuts, J.; Rong, H.; Moller, M.
    Langmuir; 23(14); pp. 7841-7846
  58. AFM Characterization of Dendrimer-Stabilized Platinum Nanoparticles
    Gu, Y.; Xie, H.; Gao, J.; Liu, D.; Williams, C. T.; Murphy, C. J.; Ploehn, H. J.
    Langmuir; 21(7); pp. 3122-3131
  59. Electrooxidation of Carbon Monoxide on Gold Nanoparticle Ensemble Electrodes: Effects of Particle Coverage
    Kumar, S.; Zou, S.
    The Journal of Physical Chemistry B; 109(33); pp. 15707-15713
  60. Novel Method for Deposition of Gold-Prussian Blue Nanocomposite Films Induced by Electrochemically Formed Gold Nanoparticles: Characterization and Application to Electrocatalysis
    Kumar, S. S.; Joseph, J.; Phani, K. L.
    Chemistry of Materials; 19(19); pp. 4722-4730
  61. Electrodeposition of Biferrocene Derivative-Attached Gold Nanoparticles: Solvent Effects and Lithographic Assembly
    Yamada, M.; Nishihara, H.
    Langmuir; 19(19); pp. 8050-8056
  62. The effect of the shape of a tip's apex on the fabrication of an AFM tip with an attached single carbon nanotube
    Hyung Woo Lee, Soo Hyun Kim, Yoon Keun Kwak, Eung Sug Lee and Chang Soo Han
    Sensors and Actuators A: Physical, Volume 125, Issue 1, 21 October 2005, Pages 41-49
  63. Sum Frequency Generation Vibrational Spectroscopy Studies of Protein Adsorption on Oxide-Covered Ti Surfaces
    Paszti, Z.; Wang, J.; Clarke, M. L.; Chen, Z.
    The Journal of Physical Chemistry B; 108(23); pp. 7779-7787
  64. Core/Shell Quantum-Dot-Photosensitized Nano-TiO2 Films: Fabrication and Application to the Damage of Cells and DNA
    Lu, Z.-X.; Zhang, Z.-L.; Zhang, M.-X.; Xie, H.-Y.; Tian, Z.-Q.; Chen, P.; Huang, H.; Pang, D.-W.
    The Journal of Physical Chemistry B; 109(47); pp. 22663-22666
  65. Large-Scale Fabrication of Protein Nanoarrays Based on Nanosphere Lithography
    Cai, Y.; Ocko, B. M.
    Langmuir; 21(20); pp. 9274-9279
  66. Surface-Assisted Assembly of an Ionic-Complementary Peptide: Controllable Growth of Nanofibers
    Yang, H.; Fung, S.-Y.; Pritzker, M.; Chen, P.
    Journal of the American Chemical Society; 129(40); pp. 12200-12210
  67. Adsorption and combing of DNA on HOPG surfaces of bulk crystals and nanosheets: application to the bridging of DNA between HOPG/Si heterostructures
    F Rose, P Martin, H Fujita, H Kawakatsu
    Nanotechnology, 17 (13), p.3325-3332
  68. Analysis of structural order in amyloid fibrils
    Tuomas P J Knowles, Jeffrey F Smith, Glyn L Devlin, Christopher M Dobson, Mark E Welland
    Nanotechnology, 18 (4), p.044031
  69. Characterization of Nanobubbles on Hydrophobic Surfaces in Water
    Yang, S.; Dammer, S. M.; Bremond, N.; Zandvliet, H. J. W.; Kooij, E. S.; Lohse, D.
    Langmuir; 23(13); pp. 7072-7077
  70. Influence of surface-adhered nanoparticles and nanoporous structure on particle–particle interaction of silica
    Toshiyuki Kani, Maki Tamonoki, Takahiro Suzuki, Mayumi Tsukada and Hidehiro Kamiya
    Powder Technology, Volume 176, Issues 2-3, 20 July 2007, Pages 99-107
  71. Polarized Infrared Study of Hybrid Langmuir-Blodgett Monolayers Containing Clay Mineral Nanoparticles
    Ras, R. H. A.; Johnston, C. T.; Franses, E. I.; Ramaekers, R.; Maes, G.; Foubert, P.; De Schryver, F. C.; Schoonheydt, R. A.
    Langmuir; 19(10); pp. 4295-4302
  72. Electro Pen Nanolithography
    Cai, Y.; Ocko, B. M.
    Journal of the American Chemical Society; 127(46); pp. 16287-16291
  73. Electro-Nanopatterning of Surface Relief Gratings on Azobenzene Layer-by-Layer Ultrathin Films by Current-Sensing Atomic Force Microscopy
    Baba, A.; Jiang, G.; Park, K.-M.; Park, J.-Y.; Shin, H.-K.; Advincula, R.
    The Journal of Physical Chemistry B; 110(35); pp. 17309-17314
  74. Surface-Enhanced Raman Scattering Investigation of the Adsorption of 2-Mercaptobenzoxazole on Smooth Copper Surfaces Doped with Silver Colloidal Nanoparticles
    Pergolese, B.; Muniz-Miranda, M.; Bigotto, A.
    The Journal of Physical Chemistry B; 110(18); pp. 9241-9245
  75. Langmuir-Blodgett Thin Films of Fe20Pt80 Nanoparticles for the Electrocatalytic Oxidation of Formic Acid
    Chen, W.; Kim, J.; Xu, L.-P.; Sun, S.; Chen, S.
    The Journal of Physical Chemistry C; 111(36); pp. 13452-13459
  76. Self-Organization of 3D Triangular GaN Nanoislands and the Shape Variation to Hexagonal
    Fang, Z.; Kang, J.
    The Journal of Physical Chemistry C; 111(22); pp. 7889-7892
  77. High resolution non-contact AFM imaging of liquids condensed onto chemically nanopatterned surfaces
    Antonio Checco, Yuguang Cai, Oleg Gang and Benjamin M. Ocko
    Ultramicroscopy, Volume 106, Issues 8-9, June-July 2006, Pages 703-708
  78. Volume of a Nanoscale Water Bridge
    Sirghi, L.; Szoszkiewicz, R.; Riedo, E.
    Langmuir; 22(3); pp. 1093-1098
  79. Preparation and Third-Order Optical Nonlinearity of Self-Assembled Chitosan/CdSe-ZnS Core-Shell Quantum Dots Multilayer Films
    Wang, X.; Du, Y.; Ding, S.; Wang, Q.; Xiong, G.; Xie, M.; Shen, X.; Pang, D.
    The Journal of Physical Chemistry B; 110(4); pp. 1566-1570
  80. Quantitative Analysis of Montmorillonite Platelet Size by Atomic Force Microscopy
    Ploehn, H. J.; Liu, C.
    Industrial & Engineering Chemistry Research; 45(21); pp. 7025-7034
  81. Formation of Nanopatterns of a Self-Assembled Monolayer (SAM) within a SAM of Different Molecules Using a Current Sensing Atomic Force Microscope
    Zhao, J.; Uosaki, K.
    Nano Letters; 2(2); pp. 137-140
  82. Making electrical contacts to molecular monolayers
    X D Cui, X Zarate, J Tomfohr, O F Sankey, A Primak, A L Moore, T A Moore, D Gust, G Harris and S M Lindsay
    Nanotechnology, 13 (1), p.5-14
  83. Novel method for the investigation of single nanoparticle reactivity
    J. Meier, K.A. Friedrich, U. Stimming
    Faraday Discussions, 121, pp. 365-372
  84. Three-Dimensional Nanostructure Construction via Nanografting: Positive and Negative Pattern Transfer
    Liu, J.-F.; Cruchon-Dupeyrat, S.; Garno, J. C.; Frommer, J.; Liu, G.-Y.
    Nano Letters; 2(9); pp. 937-940
  85. Force dependent metalloprotein conductance by conducting atomic force microscopy
    Jianwei Zhao, Jason J Davis
    Nanotechnology, 14 (9), p.1023-1028
  86. In-situ nanostructured film formation during physical vapor deposition
    Chi Zhang, Ramki Kalyanaraman
    Applied Physics Letters, Volume 83, Issue 23, pp. 4827-4829
  87. A modified nanosphere lithography for the fabrication of aminosilane/polystyrene nanoring arrays and the subsequent attachment of gold or DNA-capped gold nanoparticles
    Yue Wang, Shubo Han, Alejandro L. Briseno, Raymond J. G. Sanedrin and Feimeng Zhou
    J . M a t e r . C h e m . , 2 0 0 4 , 1 4 , 3 4 8 8 – 3 4 9 4
  88. Fabrication of high-density nanostructures with an atomic force microscope
    Jun-Fu Liu, James R. Von Her, Christof Baur, Richard Stallcup, John Randall, Ken Bray
    Applied Physics Letters, Volume 84, Issue 8, pp. 1359-1361
  89. Vertically aligned carbon nanotube heterojunctions
    Alan M. Cassell, Jun Li, Ramsey M. D. Stevens, Jessica E. Koehne, Lance Delzeit, Hou Tee Ng, Qi Ye, (...), M. Meyyappan
    Applied Physics Letters, Volume 85, Issue 12, pp. 2364-2366
  90. Dendrimer-mediated synthesis of platinum nanoparticles: new insights from dialysis and atomic force microscopy measurements
    Hong Xie, Yunlong Gu and Harry J Ploehn
    Nanotechnology, 16 (7), p.S492-S501
  91. Switching of a photochromic molecule on gold electrodes: single-molecule measurements
    Jin He, Fan Chen, Paul A Liddell, Joakim Andréasson, Stephen D Straight, Devens Gust, Thomas A Moore, Ana L Moore, Jun Li, Otto F Sankey and Stuart M Lindsay
    Nanotechnology, 16 (6), p.695-702
  92. Transistor effects and in situ STM of redox molecules at room temperature
    Albrecht, T.; Guckian, A.; Ulstrup, J.; Vos, J.G.
    Nanotechnology, Volume 4, Issue 4, Page(s):430 - 434
  93. Electrical conduction of carbon nanotube atomic force microscopy tips: Applications in nanofabrication
    Alexander J. Austin, Cattien V. Nguyen, Quoc Ngo
    Journal of Applied Physics, 99
  94. Functionalization of carbon nanotubes with oligonucleotide in solutions — Production of nanotube chips
    Zoltán Kónya, Krisztián Niesz, Imre Kiricsi, Sándor Botka, Zsófia Keresztes and Erika Kálmán
    Journal of Molecular Liquids, Volume 129, Issues 1-2, 15 October 2006, Pages 33-38
  95. Influence of Single-Walled Carbon Nanotubes Induced Crystallinity Enhancement and Morphology Change on Polymer Photovoltaic Devices
    Geng, J.; Zeng, T.
    Journal of the American Chemical Society; 128(51); pp. 16827-16833
  96. Large-scale Si1?x Ge x quantum dot arrays fabricated by templated catalytic etching
    Zhipeng Huang, Yin Wu, Hui Fang, Ning Deng, Tianling Ren, Jing Zhu
    Nanotechnology, 17 (5), p.1476-1480
  97. Nanopatterned self-assembled monolayers
    Gabriel G Baralia, Antoine Pallandre, Bernard Nysten and Alain M Jonas
    Nanotechnology, 17 (4), p.1160-1165
  98. Current measurements in a wide dynamic range—applications in electrochemical nanotechnology
    G´abor M´esz´aros, Chen Li, Ilya Pobelov and ThomasWandlowski
    Nanotechnology, 18 (42), p.424004
  99. Electron flux through apo-and holoferritin
    Danny N Axford, Jason J Davis
    Nanotechnology, 18 (14), p.145502
  100. Functional patterns obtained by nanoimprinting lithography and subsequent growth of polymer brushes
    A Genua, J A Alduncín, J A Pomposo, H Grande1, N Kehagias, V Reboud, C Sotomayor, I Mondragon and D Mecerreyes
    Nanotechnology, 18 (21), p.215301
  101. Nonlinear viscoelastic dynamics of nano-confined water
    Tai-De Li and Elisa Riedo
    arXiv:0707.2521
  102. Visualization of thermally activated nanocarriers using in situ atomic force microscopy
    Mingdong Dong, Kenneth A Howard, David Oupicky, Harender Bisht, Jørgen Kjems and Flemming Besenbacher
    Nanotechnology, 18 (18), p.185501
  103. Iron and Cobalt Oxide and Metallic Nanoparticles Prepared from Ferritin
    Hosein, H.-A.; Strongin, D. R.; Allen, M.; Douglas, T.
    Langmuir; 20(23); pp. 10283-10287
  104. Optical Properties of Metal Nanoshells
    Hao, E.; Li, S.; Bailey, R. C.; Zou, S.; Schatz, G. C.; Hupp, J. T.
    The Journal of Physical Chemistry B; 108(4); pp. 1224-1229
  105. Elastic Property of Vertically Aligned Nanowires
    Song, J.; Wang, X.; Riedo, E.; Wang, Z. L.
    Nano Letters; 5(10); pp. 1954-1958
  106. Adhesion Force Studies of Janus Nanoparticles
    Xu, L.-P.; Pradhan, S.; Chen, S.
    Langmuir; 23(16); pp. 8544-8548
  107. Direct Conjugation of Semiconductor Nanoparticles with Proteins
    Meziani, M. J.; Pathak, P.; Harruff, B. A.; Hurezeanu, R.; Sun, Y.-P.
    Langmuir; 21(5); pp. 2008-2011
  108. Anion Effect on the Nanostructure of a Metal Ion Binding Self-Assembling Peptide
    Yang, H.; Pritzker, M.; Fung, S. Y.; Sheng, Y.; Wang, W.; Chen, P.
    Langmuir; 22(20); pp. 8553-8562
  109. Characterization and Surface Reactivity of Ferrihydrite Nanoparticles Assembled in Ferritin
    Liu, G.; Debnath, S.; Paul, K. W.; Han, W.; Hausner, D. B.; Hosein, H.-A.; Michel, F. M.; Parise, J. B.; Sparks, D. L.; Strongin, D. R.
    Langmuir; 22(22); pp. 9313-9321
  110. Plasmonic Properties of Film over Nanowell Surfaces Fabricated by Nanosphere Lithography
    Hicks, E. M.; Zhang, X.; Zou, S.; Lyandres, O.; Spears, K. G.; Schatz, G. C.; Van Duyne, R. P.
    The Journal of Physical Chemistry B; 109(47); pp. 22351-22358
  111. Assembly of Coordination Nanostructures via Ligand Derivatization of Oxide Surfaces
    Wanunu, M.; Livne, S.; Vaskevich, A.; Rubinstein, I.
    Langmuir; 22(5); pp. 2130-2135
  112. Geometric artefact suppressed surface potential measurements
    Minhwan Lee, Wonyoung Lee, Fritz B Prinz
    Nanotechnology, 17 (15), p.3728-3733
  113. Dithiocarbamate-Capped Silver Nanoparticles
    Tong, M. C.; Chen, W.; Sun, J.; Ghosh, D.; Chen, S.
    The Journal of Physical Chemistry B; 110(39); pp. 19238-19242
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