Publications
Found 71 results
Author Title [ Type
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OPTICAL CYTOMETRY. (2009).
Unoccupied electronic states of graphite as probed by inverse-photoemission and tunneling spectroscopy. Physical Review B 33, 5770 (1986).
Thermodynamically controlled self-assembly of covalent nanoarchitectures in aqueous solution. ACS nano 5, 3923–3929 (2011).
Thermodynamic Self-Assembly of Two-Dimensional $π$-Conjugated Metal–Porphyrin Covalent Organic Frameworks by “On-Site” Equilibrium Polymerization. Journal of nanoscience and nanotechnology 14, 2211–2216 (2014).
Is There A Minimum Size and a Maximum Speed for a Nanoscale Amplifier?. Annals of the New York Academy of Sciences 852, 243–256 (1998).
Templating a face-centered cubic (110) termination of C< sub> 60. Surface science 367, L79–L84 (1996).
Synaptic plasticity and memory functions achieved in a WO3- x-based nanoionics device by using the principle of atomic switch operation. Nanotechnology 24, 384003 (2013).
Synaptic plasticity and memory functions achieved in a WO3- x-based nanoionics device by using the principle of atomic switch operation. Nanotechnology 24, 384003 (2013).
Short-term plasticity and long-term potentiation mimicked in single inorganic synapses. Nature materials 10, 591–595 (2011).
Short-term plasticity and long-term potentiation mimicked in single inorganic synapses. Nature materials 10, 591–595 (2011).
Sensory and short-term memory formations observed in a Ag2S gap-type atomic switch. Applied Physics Letters 99, 203108 (2011).
Rapid, massively parallel single-cell drug response measurements via live cell interferometry. Biophysical journal 101, 1025–1031 (2011).
Protein engineering: Construction of Robust Bio-nanotubes using the Controlled Self-Assembly of Component Proteins of Bacteriophage T4 (Small 17/2010). Small 6, (2010).
Positional selectivity of reversible azomethine condensation reactions at solid/liquid interfaces leading to supramolecule formation. Journal of Electroanalytical Chemistry 716, 145–149 (2014).
Photon emission from adsorbed C60 molecules with sub-nanometer lateral resolution. Applied Physics A 57, 513–516 (1993).
Photon emission at molecular resolution induced by a scanning tunneling microscope. Science 262, 1425–1427 (1993).
On-demand nanodevice with electrical and neuromorphic multifunction realized by local ion migration. ACS nano 6, 9515–9521 (2012).
On-demand nanodevice with electrical and neuromorphic multifunction realized by local ion migration. ACS nano 6, 9515–9521 (2012).
Modulation of aged murine T lymphocytes in vivo by DPV576-C, a nanodiamond-and nanoplatinum-coated material. in vivo 24, 141–146 (2010).
Memristive operations demonstrated by gap-type atomic switches. Applied Physics A 102, 811–815 (2011).
Memristive operations demonstrated by gap-type atomic switches. Applied Physics A 102, 811–815 (2011).
Low-temperature ultra-high-vacuum scanning tunneling microscope. Ultramicroscopy 42, 1621–1626 (1992).
Live cell interferometry reveals cellular dynamism during force propagation. ACS nano 2, 841–846 (2008).
Live cell interferometry reveals cellular dynamism during force propagation. ACS nano 2, 841–846 (2008).
Learning Abilities Achieved by a Single Solid-State Atomic Switch. Advanced Materials 22, 1831–1834 (2010).
Learning Abilities Achieved by a Single Solid-State Atomic Switch. Advanced Materials 22, 1831–1834 (2010).
Internal structure of C60 on Au (110) as observed by low-temperature scanning tunneling microscopy. Journal of Vacuum Science & Technology B 12, 2153–2155 (1994).
Internal structure of C60 fullerence molecules as revealed by low-temperature STM. Applied Physics A 57, 207–210 (1993).
Instantaneous Mass Profiling of Live Cells via Live Cell Interferometry. Biophysical Journal 102, 563a (2012).
In Situ STM Investigation of Aromatic Poly (azomethine) Arrays Constructed by “On-Site” Equilibrium Polymerization. Langmuir 28, 13844–13851 (2012).
High throughput cell nanomechanics with mechanical imaging interferometry. Nanotechnology 19, 235101 (2008).
High throughput cell nanomechanics with mechanical imaging interferometry. Nanotechnology 19, 235101 (2008).
Fundamental considerations in the manipulation of a single C< sub> 60 molecule on a surface with an STM. Surface science 386, 115–123 (1997).
Extra-atomic relaxation in HCl, ClF, and Cl2 from x-ray photoelectron spectroscopy. The Journal of Chemical Physics 78, 5437–5442 (1983).
Extended-x-ray-absorption fine-structure amplitude attenuation in Br 2: Relationship to satellites in the x-ray photoelectron spectrum. Physical Review A 20, 2405 (1979).
Electron spectroscopic investigations of the influence of initial-and final-state effects on electronegativity. Journal of the American Chemical Society 102, 4873–4879 (1980).
Distinct contributions of microtubule subtypes to cell membrane shape and stability. Nanomedicine: Nanotechnology, Biology and Medicine 3, 43–52 (2007).
Direct determination of the energy required to operate a single molecule switch. Physical review letters 90, 066107 (2003).
Core-level electron–electron coincidence spectroscopy. Review of scientific instruments 55, 696–711 (1984).
Core-ionization energies and the anomalous basicity of arsabenzene and phosphabenzene. Journal of the American Chemical Society 101, 1764–1767 (1979).
Controlling the Synaptic Plasticity of a Cu2S Gap-Type Atomic Switch. Advanced Functional Materials 22, 3606–3613 (2012).
Controlling the Synaptic Plasticity of a Cu2S Gap-Type Atomic Switch. Advanced Functional Materials 22, 3606–3613 (2012).