Formation and optical properties of metal/10-hydroxybenzo[h]quinolone complexes in the interlayer spaces of magadiite by solid–solid reactions

Intercalation and in situ formation of three fluorescent complexes, Al(III)-, Cr(III)- and Cu(II)-10-hydroxybenzo[h]quinolone (M-HBQ, M = Al, Cr and Cu), in the interlayer spaces of magadiite (mag) were studied by solid–solid reactions between metal ions exchanged mags (M-mag, M = Al, Cr and Cu) and HBQ. Results show that the basal spacings of the intercalated composites increase after the intercalation of HBQ into M-mags. The amount of HBQ in the intercalated compounds is different due to the amount of metal ions and the diversification of coordination ability of metal ions, and the order of the coordination ability of these three metal ions is Cu 2+ > Cr 3+ > Al 3+ . The amount of the metal cations in the interlayer of mag is enough for the in situ complex formation of M-HBQ complexes. The slight shift of the absorption and luminescence bands of the complexes suggests the different microstructures, including molecular packing of the complexes in the interlayer spaces of mags, resulting that the host–guest interactions are formed. These findings show that the intercalation and in situ formation of M-HBQ complexes (M = Al, Cr and Cu) in the interlayer space of mag are successfully achieved in the current work.

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In situ electrochemical complex formation for selected metal ions based on controlled release of the pyrrolidine dithiocarbamate ligand from polypyrrole polymer

Microchemical Journal ◽

10.1016/0026-265x(91)90057-v ◽

1991 ◽

Vol 44 (3) ◽

pp. 327-334 ◽

Cited By ~ 2

Author(s):

Erkang Wang ◽

Anhua Liu

Keyword(s):

Controlled Release ◽

Complex Formation ◽

Metal Ions ◽

Pyrrolidine Dithiocarbamate ◽

Dithiocarbamate Ligand

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Complexes of carbohydrates with metal cations. III. Conformations of alditols in aqueous solution

Australian Journal of Chemistry ◽

10.1071/ch9741447 ◽

1974 ◽

Vol 27 (7) ◽

pp. 1447 ◽

Cited By ~ 74

Author(s):

SJ Angyal ◽

D Greeves ◽

JA Mills

Keyword(s):

Aqueous Solution ◽

Complex Formation ◽

Metal Ions ◽

Chloroform Solution ◽

Metal Cations ◽

Carbon Carbon Bonds ◽

Carbon Bonds ◽

Oxygen Atoms

Complex formation of alditols with metal ions in aqueous solution has been investigated by electrophoresis and by the study of the N.M.R. spectra in the presence of europium ions. Complexing occurs at three consecutive oxygen atoms which are in a gauche-gauche arrangement; the energy required to form this arrangement (by rotation around carbon-carbon bonds) determines the extent of complex formation. It appears that the alditols in aqueous solution are essentially in the same conformations as are their acetates in chloroform solution.

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Cysteine Interactions in Glutathione Mediated Assembly of Silver Nanoparticles in the Presence of Metal Ions

Journal of Nano Research ◽

10.4028/www.scientific.net/jnanor.18-19.63 ◽

2012 ◽

Vol 18-19 ◽

pp. 63-76 ◽

Cited By ~ 1

Author(s):

Can Serkan Keskin ◽

Semra Yılmazer Keskin ◽

Abdil Özdemir

Keyword(s):

Silver Nanoparticles ◽

Optical Properties ◽

Complex Formation ◽

Metal Ions ◽

Metal Ion ◽

Variable Degree ◽

Ordered Structures ◽

Vis Spectroscopy ◽

Ligand Interactions ◽

New Material

We Report Herein Results of an Investigation of the Assembly of Silver Nanoparticles Mediated by Glutathione (GSH) and Cysteine (Cys) Interaction in the Presence of Metal Ions: Ag+, Cd2+, Co2+, Cu2+, Fe3+, Hg2+, Ni2+, Pb2+, Zn2+. The Silver Nanoparticles Produce Well-Ordered Structures upon Interaction with Glutathione in Variable Acidic Ph Condition and Exhibit Pronounced Changes in their Optical Properties Arising due to Electromagnetic Interaction. The Effect of Selected Metal Ions on the Nature of Complexation as Well as the Variation in the Optical Response due to Variable Degree of Complex Formation Amongst the Particles Have Been Investigated. The Changes in Optical Properties of the Silver Nanoparticles Have Been Accounted for the Complex Formation among the Aggsh, Cys and Metal Ions. The Complexes Have Been Characterized by UV-Vis Spectroscopy, FTIR, and AFM Studies. It Has Been Observed that the New Absorption Peaks Appear and Intensifies Depending on the Cys and Metal Ion Interaction. The Aggsh Nanoparticles Provided a Simple and Rapid Strategy to Detect Cys with the Aid of Metal Ions in Aqueous Solution. Different Metal Ions Give Different UV-Vis Spectra Profile and Show Different Sensitivity. This New Material Allows a Quantitative Assay of Cys down to the Concentration of 1× 10−5 M in Co2+ Ion Complexation. The Mechanism by which Metal Ions Can Bind with both the GSH Modified Ag Nanoparticles and Cys Molecule through Cooperative Metal–ligand Interactions Is Discussed.

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Hyperspectral Remote Sensing of the Coastal Ocean: Adaptive Sampling and Forecasting of In situ Optical Properties

10.21236/ada624963 ◽

2001 ◽

Author(s):

Oscar Schofield ◽

Scott Glenn ◽

Dale Haidvogel ◽

Frederick Grassle

Keyword(s):

Remote Sensing ◽

Optical Properties ◽

Adaptive Sampling ◽

Coastal Ocean ◽

Hyperspectral Remote Sensing

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Developing the Ability to Map In situ Optical Properties in Coastal Waters using Slocum Coastal Gliders

10.21236/ada629246 ◽

2003 ◽

Author(s):

Oscar Schofield ◽

Scott Glenn ◽

Clayton Jones

Keyword(s):

Optical Properties ◽

Coastal Waters

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Main-Chain-Type 8-Quinolinol Polymers: Synthesis, Optical Properties, and Complex Formation with Metals

Macromolecules ◽

10.1021/ma0718999 ◽

2008 ◽

Vol 41 (5) ◽

pp. 1654-1662 ◽

Cited By ~ 13

Author(s):

Takayuki Iijima ◽

Shin-ichi Kuroda ◽

Takakazu Yamamoto

Keyword(s):

Optical Properties ◽

Complex Formation ◽

Main Chain ◽

Chain Type

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Evaluating model parameterizations of submicron aerosol scattering and absorption with in situ data from ARCTAS 2008

Atmospheric Chemistry and Physics ◽

10.5194/acp-16-9435-2016 ◽

2016 ◽

Vol 16 (14) ◽

pp. 9435-9455 ◽

Cited By ~ 8

Author(s):

Matthew J. Alvarado ◽

Chantelle R. Lonsdale ◽

Helen L. Macintyre ◽

Huisheng Bian ◽

Mian Chin ◽

...

Keyword(s):

Optical Properties ◽

Size Distribution ◽

Aerosol Size Distribution ◽

Visible Radiation ◽

Submicron Aerosol ◽

In Situ Data ◽

Aerosol Absorption ◽

Aerosol Scattering ◽

The Impact

Abstract. Accurate modeling of the scattering and absorption of ultraviolet and visible radiation by aerosols is essential for accurate simulations of atmospheric chemistry and climate. Closure studies using in situ measurements of aerosol scattering and absorption can be used to evaluate and improve models of aerosol optical properties without interference from model errors in aerosol emissions, transport, chemistry, or deposition rates. Here we evaluate the ability of four externally mixed, fixed size distribution parameterizations used in global models to simulate submicron aerosol scattering and absorption at three wavelengths using in situ data gathered during the 2008 Arctic Research of the Composition of the Troposphere from Aircraft and Satellites (ARCTAS) campaign. The four models are the NASA Global Modeling Initiative (GMI) Combo model, GEOS-Chem v9-02, the baseline configuration of a version of GEOS-Chem with online radiative transfer calculations (called GC-RT), and the Optical Properties of Aerosol and Clouds (OPAC v3.1) package. We also use the ARCTAS data to perform the first evaluation of the ability of the Aerosol Simulation Program (ASP v2.1) to simulate submicron aerosol scattering and absorption when in situ data on the aerosol size distribution are used, and examine the impact of different mixing rules for black carbon (BC) on the results. We find that the GMI model tends to overestimate submicron scattering and absorption at shorter wavelengths by 10–23 %, and that GMI has smaller absolute mean biases for submicron absorption than OPAC v3.1, GEOS-Chem v9-02, or GC-RT. However, the changes to the density and refractive index of BC in GC-RT improve the simulation of submicron aerosol absorption at all wavelengths relative to GEOS-Chem v9-02. Adding a variable size distribution, as in ASP v2.1, improves model performance for scattering but not for absorption, likely due to the assumption in ASP v2.1 that BC is present at a constant mass fraction throughout the aerosol size distribution. Using a core-shell mixing rule in ASP overestimates aerosol absorption, especially for the fresh biomass burning aerosol measured in ARCTAS-B, suggesting the need for modeling the time-varying mixing states of aerosols in future versions of ASP.

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