Resolution and contrast in Kelvin probe force microscopy HO Jacobs, P Leuchtmann, OJ Homan, A Stemmer Journal of applied physics 84 (3), 1168-1173, 1998 | 617 | 1998 |
Fabrication of a cylindrical display by patterned assembly HO Jacobs, AR Tao, A Schwartz, DH Gracias, GM Whitesides Science 296 (5566), 323-325, 2002 | 501 | 2002 |
Submicrometer patterning of charge in thin-film electrets HO Jacobs, GM Whitesides Science 291 (5509), 1763-1766, 2001 | 478 | 2001 |
Molecular rectification in a metal− insulator− metal junction based on self-assembled monolayers ML Chabinyc, X Chen, RE Holmlin, H Jacobs, H Skulason, CD Frisbie, ... Journal of the American Chemical Society 124 (39), 11730-11736, 2002 | 307 | 2002 |
Practical aspects of Kelvin probe force microscopy HO Jacobs, HF Knapp, A Stemmer Review of scientific instruments 70 (3), 1756-1760, 1999 | 285 | 1999 |
Surface potential mapping: A qualitative material contrast in SPM HO Jacobs, HF Knapp, S Müller, A Stemmer Ultramicroscopy 69 (1), 39-49, 1997 | 269 | 1997 |
Microscope projection photolithography for rapid prototyping of masters with micron-scale features for use in soft lithography JC Love, DB Wolfe, HO Jacobs, GM Whitesides Langmuir 17 (19), 6005-6012, 2001 | 210 | 2001 |
Sequential shape-and-solder-directed self-assembly of functional microsystems W Zheng, P Buhlmann, HO Jacobs Proceedings of the National Academy of Sciences 101 (35), 12814-12817, 2004 | 156 | 2004 |
Approaching nanoxerography: The use of electrostatic forces to position nanoparticles with 100 nm scale resolution HO Jacobs, SA Campbell, MG Steward Advanced Materials 14 (21), 1553-1557, 2002 | 152 | 2002 |
Self-assembly of microscopic chiplets at a liquid–liquid–solid interface forming a flexible segmented monocrystalline solar cell RJ Knuesel, HO Jacobs Proceedings of the National Academy of Sciences 107 (3), 993-998, 2010 | 126 | 2010 |
Integration of ZnO microcrystals with tailored dimensions forming light emitting diodes and UV photovoltaic cells JJ Cole, X Wang, RJ Knuesel, HO Jacobs Nano letters 8 (5), 1477-1481, 2008 | 122 | 2008 |
Biomimetic self-assembly of a functional asymmetrical electronic device M Boncheva, DH Gracias, HO Jacobs, GM Whitesides Proceedings of the National Academy of Sciences 99 (8), 4937-4940, 2002 | 121 | 2002 |
Fabrication of multicomponent microsystems by directed three‐dimensional self‐assembly W Zheng, HO Jacobs Advanced Functional Materials 15 (5), 732-738, 2005 | 110 | 2005 |
Measuring and modifying the electric surface potential distribution on a nanometre scale: a powerful tool in science and technology HO Jacobs, A Stemmer Surface and Interface Analysis: An International Journal devoted to the …, 1999 | 106 | 1999 |
Electric microcontact printing method and apparatus HO Jacobs, GM Whitesides US Patent 7,771,647, 2010 | 102 | 2010 |
Charging process and coulomb-force-directed printing of nanoparticles with sub-100-nm lateral resolution CR Barry, J Gu, HO Jacobs Nano letters 5 (10), 2078-2084, 2005 | 92 | 2005 |
Investigation of the cleaved surface of a laser using Kelvin probe force microscopy and two-dimensional physical simulations F Robin, H Jacobs, O Homan, A Stemmer, W Bächtold Applied Physics Letters 76 (20), 2907-2909, 2000 | 92 | 2000 |
Programmable reconfigurable self-assembly: Parallel heterogeneous integration of chip-scale components on planar and nonplanar surfaces J Chung, W Zheng, TJ Hatch, HO Jacobs Journal of Microelectromechanical Systems 15 (3), 457-464, 2006 | 91 | 2006 |
Single-chip CMOS anemometer F Mayer, A Haberli, H Jacobs, G Ofner, O Paul, H Baltes International Electron Devices Meeting. IEDM Technical Digest, 895-898, 1997 | 91 | 1997 |
Printing nanoparticle building blocks from the gas phase using nanoxerography CR Barry, NZ Lwin, W Zheng, HO Jacobs Applied Physics Letters 83 (26), 5527-5529, 2003 | 89 | 2003 |