• Environmental Engineering Research
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• v.8 no.2
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• pp.59-71
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• 2003

• Archives of Pharmacal Research
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• v.16 no.3
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• pp.257-258
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• 1993

• Bulletin of the Korean Chemical Society
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• v.31 no.2
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• pp.515-516
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• 2010

• Journal of the Korean Chemical Society
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• v.37 no.9
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• pp.826-831
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• 1993

3-Cyanopyridine, when treated with organolithium or Grignard reagents, gives addition to the 6-position and provides a series of 2-substituted 5-cyanopyridines (6-substituted 3-cyanopyridines). Alternatively, 2-and 4-cyanopyridine react with $CH_3Li$ or $CH_3Mgl$ and provide 2-acetylpyridine and 4-acetylpyridine, respectively.

• Advances in environmental research
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• v.3 no.2
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• pp.117-129
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• 2014

Groundwater contamination is seeking a lot of attention due to constant degradation of water by landfills and waste lagoons. In many cases heterogeneous soil system is encountered and hence, a finite element model is developed to solve the advection-dispersion equation for layered soil system as FEM is a robust tool for modelling problems of heterogeneity and complex geometries. Recently developed Meshfree methods have advantage of eliminating the mesh and construct approximate solutions and are observed that they perform effectively as compared to conventional FEM. In the present study, both FEM and Meshfree method are used to simulate phenomenon of contaminant transport in one dimension. The results obtained are agreeing with the values in literature and hence the model is further used for predicting the transport of contaminants. Parametric study is done by changing the dispersion coefficient, average velocity, geochemical reactions, height of leachate and height of liner for obtaining suitability.

• Bulletin of the Korean Chemical Society
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• v.7 no.5
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• pp.362-366
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• 1986

Synthesis and hydrolysis of aromatic diketimines of triaryl type were investigated by the action of aryl organometallics on the three isomers of phthalonitrile. The reactions of organometallic reagents, prepared from bromobenzene, o-bromotoluene and o-bromoanisol, with iso- and terephthalonitrile proceeded in normal way. Decomposition of the addition complex with dry ammonia, methanol or water gave six diketimines, which could be hydrolysed to the corresponding diketones. Reactions of phthalonitrile with the organometallic reagent were different from the other isomers, so that the decomposition and hydrolysis of the addition complex did not give diimines and the corresponding aromatic diketones.

• Bulletin of the Korean Chemical Society
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• v.26 no.12
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• pp.1946-1952
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• 2005

New group 15 organometallic compounds, M$(phenanthrenyl)_3$ (M = P (1), Sb (2), Bi (3)) have been prepared from the reactions of 9-phenanthrenyllithium with $MCl_3$. A reaction of 9-(diphenylphosphino)phenanthrene with 2,6-diisopropylphenyl azide led to the formation of (phenanthrenyl)${(Ph)}_2P$=N-(2,6-$^iPr_2C_6H_3$) (4). The crystal structures of 2 and 4 have been determined by single-crystal X-ray diffractions, both of which crystallize with two independent molecules in the asymmetric unit. Compound 2 shows a trigonal pyramidal geometry around the Sb atom with three phenanthrenyl groups being located in a screw-like fashion with an approximately $C_3$ symmetry. A significant amount of CH- -$\pi$ interaction exists between two independent molecules of 4. The phosphorus center possesses a distorted tetrahedral environment with P-N bond lengths of 1.557(3)$\AA$ (P(1) N) and 1.532(3)$\AA$ (P(2)-N), respectively, which are short enough to support a double bond character. One of the most intriguing structural features of 4 is an unusually diminished bond angle of C-N-P, attributable to the hydrogen bonding of N(1)-H(5A) [ca. 2.49$\AA$ between two adjacent molecules in crystal packing. The compounds 1-3 show purple emission both in solution and as films at room temperature with emission maxima ($\lambda_{max}$) at 349, 366, and 386 nm, respectively, attributable to the ligand centered $\pi$ $\rightarrow$ $\pi^\ast$ transition in phenanthrene contributed by the lone pair electrons of the Gp 15 elements. Yet the nature of luminescence observed with 4 differs in that it originates from $\pi$ (diisopropylbenzene)-$\pi^\ast$ (phenanthrene) transitions with the $\rho\pi$contribution from the nitrogen atom. The emission maximum of 4 is red-shifted ranging 350-450 nm due to the internal charge transfer from the phenanthrenyl ring to the N-arylamine group as deduced from the ab initio calculations.