Your search keyword '"David L. Rogow"' showing total 15 results

1. Geometric Control of Ground State Multiplicity in a Copper(I) Bis(verdazyl) Complex

Author

Janice L. Wong, Mike Hundley, David L. Rogow, Khanh Van-Tu, David J. R. Brook, and Gordon T. Yee

Subjects

Diradical, chemistry.chemical_element, Tetrahedral molecular geometry, Copper, Magnetic susceptibility, Inorganic Chemistry, Crystallography, chemistry, Computational chemistry, Physical and Theoretical Chemistry, Multiplicity (chemistry), Ground state, Monoclinic crystal system, Coordination geometry

Abstract

A copper(I) complex of a 3-(6'-isopropylpyridyl)-substituted verdazyl was synthesized and characterized by X-ray crystallography and magnetic susceptibility. The complex crystallizes in the monoclinic space group C2/c with cell dimensions a = 22.544 A, b = 11.576 A, c = 17.157 A, β = 123.907°, V = 3716.2 A(3). The coordination geometry at copper is distorted tetrahedral, with the two ligand planes separated by 75°. Magnetic susceptibility measurements indicate that the ground state of the diradical is a triplet at this geometry. Fitting to a simple Heisenberg Hamiltonian (H = -JS(1)·S(2)) gave J = 47(1) cm(-1). The triplet ground state results from exchange mediated by the copper ion; in particular, the direction of the distortion from tetrahedral geometry appears to be essential to maintain the high-spin ground state.

Published

2010

2. Hydrothermal Synthesis of Two Cationic Bismuthate Clusters: An Alkylenedisulfonate Bridged Hexamer, [Bi6O4(OH)4(H2O)2][(CH2)2(SO3)2]3 and a Rare Nonamer Templated by Triflate, [Bi9O8(OH)6][CF3SO3]5

Author

Scott R. J. Oliver, Mariko Ikehata, Allen G. Oliver, Honghan Fei, Daniel P. Brennan, David L. Rogow, and Peter Y. Zavalij

Subjects

Inorganic chemistry, Cationic polymerization, Infrared spectroscopy, Random hexamer, Heterogeneous catalysis, Inorganic Chemistry, chemistry.chemical_compound, Sulfonate, chemistry, Polymer chemistry, Molecule, Hydrothermal synthesis, Physical and Theoretical Chemistry, Trifluoromethanesulfonate

Abstract

This paper reports the synthesis, characterization, and application of two cationic bismuthate clusters by anion templating. The compounds were synthesized under mild hydrothermal treatment and characterized by powder and single-crystal X-ray diffraction, infrared spectroscopy, and thermogravimetric analysis. The first material consists of a cationic hexanuclear bismuthate cluster octahedral in geometry and linked by 1,2-ethanedisulfonate molecules. This structure is thermally stable to about 235 °C. In the second compound, discrete cationic nonanuclear bismuthate clusters interact electrostatically with trifluoromethanesulfonate anions to pack into a nearly layered assembly. The material undergoes a transformation to Bi2O3 upon loss of the triflate groups at about 385 °C. Both materials demonstrate the use of sulfonate groups for the anion-directed assembly of these rare cationic inorganic structures. The application of the 3D octahedral bismuth cluster material toward acidic heterogeneous catalysis is a...

Published

2010

3. Reversible Anion Exchange and Catalytic Properties of Two Cationic Metal−Organic Frameworks Based on Cu(I) and Ag(I)

Author

Honghan Fei, David L. Rogow, and Scott R. J. Oliver

Subjects

Perrhenate, Ion exchange, Inorganic chemistry, Cationic polymerization, General Chemistry, Heterogeneous catalysis, Biochemistry, Catalysis, Metal, chemistry.chemical_compound, Colloid and Surface Chemistry, Sulfonate, chemistry, visual_art, Polymer chemistry, visual_art.visual_art_medium, Metal-organic framework

Abstract

We report the synthesis and characterization of two Ag(I)/Cu(I)-based cationic metal-organic frameworks and their application in both heterogeneous catalysis and anion exchange. The Cu(I)-based material was designed from our previously reported Ag(I) cationic topology. Both structures consist of cationic layers with pi-pi stacked chains of alternating metal and 4,4'-bipyridine. Alpha,omega-alkanedisulfonate serves as an anionic template, electrostatically bonding to the cationic layers. Due to weak interaction between the sulfonate template and cationic extended framework, both materials display reversible anion exchange for a variety of inorganic species. Indeed, the Ag(I)-based material exhibits highly efficient uptake of permanganate and perrhenate anion trapping, a model for pertechnetate trapping. The materials also display heterogeneous Lewis acidity, likely due to the coordinatively unsaturated metal sites which only bind to two bipy nitrogens and a weak interaction with one sulfonate oxygen. A comparative study on the influence of structure versus size selectivity and reusability for both exchange and catalysis is discussed.

Published

2010

4. Synthesis, Characterization, and Catalytic Application of a Cationic Metal−Organic Framework: Ag2(4,4′-bipy)2(O3SCH2CH2SO3)

Author

Scott R. J. Oliver, David L. Rogow, Latisha Paw U, Yashar Abdollahian, Honghan Fei, and Marc R. Bresler

Subjects

chemistry.chemical_classification, Ketone, Chemistry, General Chemical Engineering, Inorganic chemistry, Cationic polymerization, General Chemistry, Hydrothermal circulation, Catalysis, chemistry.chemical_compound, Sulfonate, Yield (chemistry), Materials Chemistry, Metal-organic framework, Thermal stability

Abstract

We report a silver-based cationic metal−organic framework with two mixed organic linkers directing the structure. The structure consists of 1D Ag(4,4′-bipy) cationic chains arranged into close-packed layers. Weakly bound alkanedisulfonate anions charge-balance the layers, where only one oxygen of each sulfonate makes a long contact with the Ag. The unsaturated linear Ag centers likely allow the Lewis acidity displayed by the material for ketone protection as well as esterification. The material showed no reduction in yield after three catalytic runs with average 95% conversion yield for ketal formation and 57% for esterification without further water removal. In addition to hydrothermal conditions, the structure can be synthesized by reflux or room temperature, with almost identical catalytic ability. Other properties of this compound including chemical and thermal stability are also described.

Published

2010

5. Hydrothermal Synthesis and Characterization of Three Cationic Inorganic−Organic Hybrid Materials Based on Lead Fluoride

Author

Allen G. Oliver, Lora M. Wayman, Matthew P. Russell, Scott R. J. Oliver, Claudia H. Swanson, and David L. Rogow

Subjects

Thermogravimetric analysis, Chemistry, Inorganic chemistry, Cationic polymerization, General Chemistry, Condensed Matter Physics, Perchlorate, chemistry.chemical_compound, Hydrothermal synthesis, Molecule, General Materials Science, Thermal stability, Perchloric acid, Hybrid material

Abstract

Three rare examples of extended inorganic materials possessing a cationic charge on the host have been successfully synthesized hydrothermally. The first structure consists of two-dimensional lead fluoride [Pb9F16]2+ sheets with perchlorate anions occupying the interlayer space. The material is a higher symmetry polytype of our previously reported lead fluoride nitrate Pb3F5·NO3. Two new isoreticular layered metal−organic frameworks have also been discovered with cationic lead fluoride [Pb2F2]2+ layers pillared by 3- and 4-carbon chain alkylenedisulfonate molecules. Each structure was characterized by powder and single-crystal X-ray diffraction and thermogravimetric analysis. The thermal stability increases with the alkylene chain length of the linker molecule. The syntheses require the addition of perchloric acid to the reaction mixture. An improved synthesis for our previously reported lead fluoride polytype pillared by ethanedisulfonate in terms of increased yield and purity was also realized using per...

Published

2010

6. Ruthenium Nitrosyls Derived from Tetradentate Ligands Containing Carboxamido-N and Phenolato-O Donors: Syntheses, Structures, Photolability, and Time Dependent Density Functional Theory Studies

Author

Pradip K. Mascharak, Manpreet Kaur, Michael J. Rose, Crystal Nyitray, David L. Rogow, and Nicole L. Fry

Subjects

Time Factors, Absorption spectroscopy, Photochemistry, medicine.drug_class, Chemistry, Ligand, chemistry.chemical_element, Carboxamide, Time-dependent density functional theory, Crystallography, X-Ray, Ligands, Nitric Oxide, Ruthenium, Article, Inorganic Chemistry, Crystallography, Atomic orbital, medicine, Diamagnetism, Density functional theory, Sulfhydryl Compounds, Physical and Theoretical Chemistry

Abstract

In order to examine the role(s) of designed ligands on the NO photolability of {Ru-NO}(6) nitrosyls, a set of three nitrosyls with ligands containing two carboxamide groups along with a varying number of phenolates have been synthesized. The nitrosyls namely, (NEt(4))(2)[(hybeb)Ru(NO)(OEt)] (1), (PPh(4))[(hypyb)Ru(NO)(OEt)] (2), and [(bpb)Ru(NO)(OEt)] (3) have been characterized by X-ray crystallography. Complexes 1-3 are diamagnetic, exhibit nu(NO) in the range 1780-1840 cm(-1) and rapidly release NO in solution upon exposure to low power UV light (7 mW/cm(2)). Density Functional Theory (DFT) and Time Dependent DFT (TDDFT) calculations on 1-3 indicate considerable contribution of ligand orbitals in the MOs involved in transitions leading to NO photolability. The results of the theoretical studies match well with the experimental absorption spectra as well as the parameters for NO photorelease and provide insight into the transition(s) associated with loss of NO.

Published

2010

7. Antimony Oxide Hydroxide Ethanedisulfonate: a Cationic Layered Metal Oxide for Lewis Acid Applications

Author

Scott R. J. Oliver, David L. Rogow, Allen G. Oliver, Charles F. Campana, Claudia H. Swanson, and Harris A. Shaikh

Subjects

Chemistry, Inorganic chemistry, Oxide, Layered double hydroxides, chemistry.chemical_element, General Chemistry, engineering.material, Biochemistry, Catalysis, chemistry.chemical_compound, Colloid and Surface Chemistry, Sulfonate, Antimony, engineering, Hydroxide, Lewis acids and bases, Antimony oxide

Abstract

We have discovered a rare example of a cationically charged inorganic material. The layered structure is an example outside the extensively studied isostructural set of anionic clays/layered double hydroxides and our previously reported lead fluoride nitrate. For the present compound, the antimony oxide hydroxide layers are positively charged and are templated by anionic alkylenedisulfonate. The organic molecules are only bonded electrostatically to the layers with sulfonate oxygen to antimony distances beyond the covalent range. The material catalyzes a ketal formation reaction as a Lewis acid without the need for drying the solvent before the reaction or a nonaqueous medium such as toluene. The catalyst is heterogeneous and is completely recovered after the catalysis for reapplication.

Published

2008

8. A Metal−Organic Framework Containing Cationic Inorganic Layers: Pb2F2[C2H4(SO3)2]

Author

Charles F. Campana, Claudia H. Swanson, Xiaojuan Fan, David L. Rogow, Scott R. J. Oliver, Gustavo Zapeda, and and Allen G. Oliver

Subjects

Metal, Materials science, Chemical engineering, Covalent bond, General Chemical Engineering, visual_art, Lead fluoride, Inorganic chemistry, Materials Chemistry, Cationic polymerization, visual_art.visual_art_medium, General Chemistry, Linker

Abstract

We have discovered a metal−organic framework containing cationic inorganic layers. The metal fluoride−organodisulfonate structure, Pb2F2[C2H4(SO3)2], was synthesized hydrothermally. The lead fluoride cationic layers are covalently connected by 1,2-ethanedisulfonate chains oriented perpendicular to the layers. The material is thermally stable to ca. 325 °C, above which the material collapses to phase-pure α-PbF2. This material is a rare example of the use of organosulfonates as organic linker and the first metal−organic framework to contain lead fluoride connectivity. The existence of extended cationic inorganic moieties embedded within a metal−organic framework material further diversifies the possible structure types of this rapidly growing class of materials.

Published

2007

9. Solvothermal synthesis and characterization of two inorganic-organic hybrid materials based on barium

Author

David L. Rogow, Allen G. Oliver, Jesse L. Hauser, Yashar Abdollahian, and Scott R. J. Oliver

Subjects

Thermogravimetric analysis, Materials science, Barium fluoride, Inorganic chemistry, Solvothermal synthesis, chemistry.chemical_element, Barium, Catalysis, Inorganic Chemistry, chemistry.chemical_compound, Acid catalysis, chemistry, Molecule, Hybrid material

Abstract

Two metal-organic frameworks containing barium were synthesized hydrothermally and investigated for their catalytic properties. Ba(2)F(2)[O(3)SC(2)H(4)SO(3)] has barium fluoride layers linked by organic 1,2-ethanedisulfonate molecules. Ba[O(3)SC(2)H(4)SO(3)] has discrete barium centers arranged in layers and connected covalently by ethanedisulfonate bridges. Thermogravimetric analysis showed that Ba(2)F(2)[O(3)SC(2)H(4)SO(3)] is stable to ca. 325 °C and Ba[O(3)SC(2)H(4)SO(3)] to ca. 375 °C. These materials expand the metal-organic frameworks available for group II metals bound to organodisulfonate linkers and are potentially useful for a range of heterogeneous acid catalysis reactions.

Published

2012

10. Carbon dioxide capture in metal-organic frameworks

Author

Jarad A. Mason, Eric D. Bloch, Jeffrey R. Long, Tae-Hyun Bae, Kenji Sumida, David L. Rogow, Zoey R. Herm, and Thomas M. McDonald

Subjects

Models, Molecular, Secondary building unit, Polymer science, Chemistry, Surface Properties, Porous Coordination Polymers, Organometallic Compounds, Metal-organic framework, Nanotechnology, General Chemistry, Adsorption, Carbon Dioxide, Co2 adsorption

Abstract

Kenji Sumida, David L. Rogow, Jarad A. Mason, Thomas M. McDonald, Eric D. Bloch, Zoey R. Herm, Tae-Hyun Bae, Jeffrey R. Long

Published

2011

11. Two related gadolinium aquo carbonate 2-D and 3-D structures and their thermal, spectroscopic, and paramagnetic properties

Author

Claudia H. Swanson, Allen G. Oliver, Scott R. J. Oliver, and David L. Rogow

Subjects

Inorganic Chemistry, Paramagnetism, chemistry.chemical_compound, chemistry, Gadolinium, Thermal, Inorganic chemistry, Carbonate, chemistry.chemical_element, Inorganic materials, Physical and Theoretical Chemistry

Abstract

We report two new extended inorganic materials based on gadolinium. The first, [Gd(CO(3))(2)H(2)O][NH(4)], consists of negatively charged 2-D sheets of gadolinium carbonate with one coordinated water molecule and an ammonium cation between the layers. The coordinated water and one carbonate extend into the interlayer space, connecting the layers via an extensive hydrogen bonding network which includes the ammonium ions. The second, a closely related yet more condensed framework structure, [Gd(2)(CO(3))(3)NH(3)H(2)O], is formed at a higher hydrothermal temperature and was characterized by single crystal X-ray diffraction data collected at a synchrotron. This second structure contains layers that are isostructural to the first, bridged together by carbonate, and coordinated by water and ammonia. The properties of these materials were studied by thermogravimetric analysis-mass spectrometry, photoluminescence, electron paramagnetic resonance, and Raman and infrared spectroscopy. The 2-D [Gd(CO(3))(2)H(2)O][NH(4)] is stable to about 175 degrees C, though water and ammonium loss continues through the entire thermogravimetric analysis trace. The 3-D material remains intact until about 325 degrees C. Both structures exhibit broad luminescence bands in the near-ultraviolet region centered at 354 nm. Electron paramagnetic resonance and magnetic susceptibility show spin-spin coupling between adjacent gadolinium atoms in both structures and confirm that they are paramagnetic. These materials show interesting photoluminescent and paramagnetic properties that could possibly be exploited for chemical sensing or magnetic materials applications.

Published

2010

12. Hydrothermal synthesis of two cationic bismuthate clusters: an alkylenedisulfonate bridged hexamer, [Bi6O4(OH)4(H2O)2][(CH2)2(SO3)2]3 and a rare nonamer templated by triflate, [Bi9O8(OH)6][CF3SO3]5

Author

David L, Rogow, Honghan, Fei, Daniel P, Brennan, Mariko, Ikehata, Peter Y, Zavalij, Allen G, Oliver, and Scott R J, Oliver

Abstract

This paper reports the synthesis, characterization, and application of two cationic bismuthate clusters by anion templating. The compounds were synthesized under mild hydrothermal treatment and characterized by powder and single-crystal X-ray diffraction, infrared spectroscopy, and thermogravimetric analysis. The first material consists of a cationic hexanuclear bismuthate cluster octahedral in geometry and linked by 1,2-ethanedisulfonate molecules. This structure is thermally stable to about 235 degrees C. In the second compound, discrete cationic nonanuclear bismuthate clusters interact electrostatically with trifluoromethanesulfonate anions to pack into a nearly layered assembly. The material undergoes a transformation to Bi(2)O(3) upon loss of the triflate groups at about 385 degrees C. Both materials demonstrate the use of sulfonate groups for the anion-directed assembly of these rare cationic inorganic structures. The application of the 3D octahedral bismuth cluster material toward acidic heterogeneous catalysis is also reported.

Published

2010

13. Polymer-templated nanospider TiO(2) thin films for efficient photoelectrochemical water splitting

Author

Xiaojuan Fan, Honghan Fei, Yuchen Yang, David L. Rogow, and Scott R. J. Oliver

Subjects

chemistry.chemical_classification, Materials science, genetic structures, business.industry, technology, industry, and agriculture, Polymer, Photoelectrochemical cell, Photochemistry, eye diseases, chemistry.chemical_compound, Carbon film, Semiconductor, chemistry, Chemical engineering, Water splitting, General Materials Science, sense organs, Thin film, Photodegradation, business, Ethylene glycol

Abstract

We have discovered a facile and inexpensive approach to fabricate "nanospider" TiO(2) thin films with not only an amazing morphology but highly efficient water splitting to produce hydrogen. Our method employs benzene-swollen poly(ethylene glycol) as a sacrificial organic polymer to template the semiconductor thin film. The synthesized TiO(2) thin films are highly crystalline with optimized particle and channel size to enhance the liquid-semiconductor junction interaction. This enhanced contact area leads to more than twice the water splitting performance than conventional P25 thin films. In addition, the nanospider thin films also outperform P25 films in the photodegradation of toxic organics.

Published

2010

14. Contact printed Co/insulator/Co molecular junctions

Author

Claudia H. Swanson, David L. Rogow, Scott R. J. Oliver, Xiaojuan Fan, and Akhilesh Tripathi

Subjects

Crystallography, Materials science, Physics and Astronomy (miscellaneous), X-ray crystallography, Monolayer, Energy-dispersive X-ray spectroscopy, Surface roughness, Molecular electronics, Thin film, Contact print, Spectroscopy, Molecular physics

Abstract

The authors report the contact printing of a Au∕Co double layer (total thickness ∼20–40nm) onto a self-assembled monolayer surface to form molecular junctions under ambient conditions. The feature size ranges from 50×50μm2to2×2mm2. Grazing incident x-ray diffraction of the multilayer junction shows all expected Au peaks, while elemental Co was confirmed by energy dispersive spectroscopy. Film thickness, roughness, and density were characterized by x-ray reflectivity. I-V measurements show a prominent hysteresis, likely associated with charge trapping at the metal-organic interface, not an intrinsic feature of alkanedithiol molecules.

Published

2007

15. A Metal−Organic Framework Containing Cationic Inorganic Layers:  Pb2F2C2H4(SO3)2.

Author

David L. Rogow, Gustavo Zapeda, Claudia H. Swanson, Xiaojuan Fan, Charles F. Campana, Allen G. Oliver, and Scott R. J. Oliver

Published

2007