J
Jeffrey T. Culp
Researcher at United States Department of Energy
Publications - 63
Citations - 1780
Jeffrey T. Culp is an academic researcher from United States Department of Energy. The author has contributed to research in topics: Adsorption & Monolayer. The author has an hindex of 21, co-authored 56 publications receiving 1498 citations. Previous affiliations of Jeffrey T. Culp include URS Corporation & University of Florida.
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Experimental and Theoretical Studies of Gas Adsorption in Cu3(BTC)2: An Effective Activation Procedure
Jinchen Liu,Jeffrey T. Culp,Sittichai Natesakhawat,Bradley C. Bockrath,Brian Zande,S. G. Sankar,Giovanni Garberoglio,J. Karl Johnson +7 more
TL;DR: In this article, the authors improved the activation process for CuBTC by extracting the N,N-dimethylformamide-solvated crystals with methanol; they identified material activa...
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Hysteresis in the physisorption of CO2 and N2 in a flexible pillared layer nickel cyanide.
TL;DR: Powder X-ray diffraction measurements indicate that the material is an extended three-dimensional analogue of the well-known Hofmann clathrates which is formed through axial bridging of the in-plane octahedral Ni sites by the bidentate 1,2-bis(4-pyridyl)ethylene pillars.
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Metal–Organic Framework Thin Film Coated Optical Fiber Sensors: A Novel Waveguide-Based Chemical Sensing Platform
TL;DR: This study presents a simple design strategy and high performance of nanoporous metal-organic framework (MOF) based optical gas sensors, which enables detection of a wide range of concentrations of small molecules based upon extremely small differences in refractive indices as a function of analyte adsorption within the MOF framework.
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Supramolecular assembly at interfaces: formation of an extended two-dimensional coordinate covalent square grid network at the air-water interface.
TL;DR: Characterization of the LB film extended networks revealed a face-centered square grid structure with an average domain size of 3600 A(2), and magnetic measurements indicated that the network undergoes a transition to a ferromagnetic state below a T(c) of 8 K.
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Adsorption Properties of Hydrogen and Carbon Dioxide in Prussian Blue Analogues M3[Co(CN)6]2, M = Co, Zn
TL;DR: In this paper, the displacement of CO2 by H2 in these compounds was investigated with Fourier transform infrared spectroscopy (FTIR), and the FTIR experiments showed that CO2 physisorption at cryogenic temperatures produced an infrared peak at 2335 cm-1.