Colin Nuckolls
Columbia University
362 Papers
2.9K Citations
Colin Nuckolls is an academic researcher from Columbia University. The author has contributed to research in topics: Chemistry & Conductance. The author has an hindex of 76, co-authored 312 publications. Previous affiliations of Colin Nuckolls include Princeton University & Center for Functional Nanomaterials.
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Papers
Coaxially Conductive Organic Wires Through Self-Assembly.
Shayan Louie,Yunpeng Zhong,Si Tong Bao,Cédric Schaack,A. Barba Montoya,Zexin Jin,Nicholas M. Orchanian,Yang Liu,Wenrui Lei,Kelsey J. Harrison,James Hone,Alexander Angerhofer,Austin M. Evans,Colin Nuckolls +13 more
TL;DR: The hexameric macrocyclic aniline (MA[6] as mentioned in this paper spontaneously assembles into coaxially conductive organic wires in its oxidized and acidified emeraldine salt (ES) form.
Mechanism for Oxygen-Enhanced Photoconductivity in Rubrene: Electron Transfer Doping 3
Ashok Maliakal,Judy Y.-C. Chen,Woo-Young So,Steffen Jockusch,Bumjung Kim,Maria Francesca Ottaviani,Alberto Modelli,Nicholas J. Turro,Colin Nuckolls,Arthur P. Ramirez +9 more
TL;DR: The oxygen-enhanced photoconductivity observed in crystalline rubrene is investigated using electron paramagnetic resonance (EPR) spectroscopy and steady-state and time dependent photoconductivities (PC) measurements as discussed by the authors.
Photoactive Gate Dielectrics
Qian Shen,Linjun Wang,Song Liu,Yang Cao,Lin Gan,Xuefeng Guo,Michael L. Steigerwald,Zhigang Shuai,Zhongfan Liu,Colin Nuckolls +9 more
TL;DR: This paper presents a probabilistic analysis of the response of EMTs to high-temperature deposition of Na6(CO3)(SO4)2, a mixture of Na2CO3 and Na2SO4, which shows clear patterns ofdegrade towards each other and also indicates the preference of the latter for higher temperatures.
Transducing methyltransferase activity into electrical signals in a carbon nanotube–DNA device
Hanfei Wang,Natalie B. Muren,David D. Ordinario,Alon A. Gorodetsky,Jacqueline K. Barton,Colin Nuckolls +5 more
TL;DR: This study creates a device where the DNA is electronically integrated to serve as both the biological target and electrical transducer in a CNT-DNA-CNT device that represents a unique route for the specific, single molecule detection of enzymatic activity.
Measurement of voltage-dependent electronic transport across amine-linked single-molecular-wire junctions
Jonathan R. Widawsky,Maria Kamenetska,Jennifer E. Klare,Colin Nuckolls,Michael L. Steigerwald,Mark S. Hybertsen,Latha Venkataraman +6 more
TL;DR: The conductance and current-voltage characteristics of two amine-terminated molecular wires are measured by breaking Au point contacts in a molecular solution at room temperature to indicate the predominant transport channel for 4,4'-diaminostilbene is closer to the Fermi level of the metal than that of the other molecules, consistent with the trends observed in the molecular ionization potential.