58 research outputs found
Glycinium hydrogen fumarate glycine solvate monohydrate
In the title compound, C2H6NO2
+·C4H3O4
−·C2H5NO2·H2O, the asymmetric unit contains two glycine residues, one protonated and one in the zwitterionic form, a hydrogen fumarate anion and a water molecule. Through N—H⋯O and O—H⋯O hydrogen bonds, molecules assemble in layers parallel to the (10) plane, one layer of hydrogen fumarate anions alternating with two layers of glycine molecules. In each glycine layer, hydrogen bonds generate an R
4
4(19) graph-set motif. Further hydrogen bonds involving the water molecule and the hydrogen fumarate anions result in the formation of a three-dimensional network
Hexaaquazinc(II) dipicrate
In the title compound, [Zn(H2O)6](C6H2N3O7)2, the ZnII ion is located on an inversion center and is coordinated by six water molecules in an octahedral geometry. The picrate anions have no coordination interactions with the ZnII atom. The three nitro groups are twisted away from the attached benzene ring by19.8 (3), 6.5 (4) and 28.6 (3)°. There are numerous O—H⋯O hydrogen bonds in the crystal structure
Hexaaquacadmium(II) dipicrate monohydrate
In the structure of the title compound, [Cd(H2O)6](C6H2N3O7)2·H2O, the CdII ion is located on an inversion center and is coordinated by six water molecules in an octahedral geometry. The picrate anions have no coordination interactions with the CdII ion. The three nitro groups are twisted away from the attached benzene ring, making dihedral angles of 17.89 (3), 27.94 (4) and 13.65 (3)°. There are numerous O—H⋯O hydrogen bonds in the crystal structure, involving coordinated and uncoordinated water molecules
Growth and characterization of a new potential second harmonic generation material from the amino acid family: L-Valinium picrate
Linear and nonlinear optical studies on 3,6-bis (2 pyridyl) pyridazine
3,6-Bis (2 pyridyl) pyridazine has been synthesized and characterized by NMR, XRD and elemental analyses. The vibrational studies were carried out by using FTIR and Raman spectroscopy and the modes of vibrations were analysed and compared with the theoretically calculated values. The nonlinear optical property of the title compound was examined by Kurtz-Perry method and Hyper Raleigh scattering with the fundamental wavelength of 1064nm. This compound possesses less SHG efficiency but large first hyperpolarizability. (C) 2013 Elsevier GmbH. All rights reserved
Growth and characterization of a new potential NLO material from the amino acid family—L-prolinium picrate
L-prolinium picrate (C5H10NO2)+. (C6H2N3O7)�, an organic nonlinear optical (NLO) material possessing a
large second harmonic generation (SHG) efficiency (74 times higher than that of the standard KDP) was
grown by slow evaporation method. The identity of the crystals was confirmed by using single-crystal
X-ray diffraction. The crystalline perfection was studied by multicrystal X-ray diffractometer. Fourier
transform infrared (FTIR) spectroscopic studies, optical behavior such as UV–visible–NIR absorption and
SHG conversion efficiency were investigated to explore the NLO characteristics of the above material.
The structural features of the material leading to the large SHG efficiency are discussed. Microhardness
measurements and dielectric studies of the compound were also carried out
Growth and characterization of l-histidinium 2-nitrobenzoate single crystals: A new NLO material
Effect of strontium chloride on the optical and mechanical properties of γ-glycine crystals
Thermophysical and Optical Properties of L-Tartaric Acid Crystal
Thermal properties play a vital role particularly for the materials which are used in high power laser irradiation. Photoacoustic technique is very much feasible to findout the thermal transport properties of solid materials. In the present work, nonlinear optical (NLO) single crystal of L-tartaric acid (LTA) was grown by Sankaranarayanan-Ramasamy (SR) method for dimensions of 140 mm in length and 11.5 mm in diameter. The grown LTA crystal has been subjected to UV-Vis-NIR spectral study to analyze the optical transmittance and absorbance characteristics. The thermal characterization studies were performed using photoacoustic spectrometer (PAS). Thermal characterization involves measurement of thermal parameters such as thermal diffusivity, thermal effusivity, thermal conductivity and specific heat capacity. The experimental results of photoacoustic spectrometer show that the thermal diffusivity of LTA is higher than the reported values of a few other well known NLO materials
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