Leuceana lucocephala is a small tree originated and scoped as a weed in tropical and warm temperate region of other countries in India .it mostly cultivated for its fodder fuel, timer and other important uses like huge plant, green manure, food for animal and like a bio energy crop. Leucaena Leucocephala, commonly called subabul in the locality of Vidisha district, has considered for crop intensification .Leucaena Leucocephala has also considered among the fast-growing, multipurpose nitrogen-fixing trees, hence, it has regarded by the nickname “Miracle tree”. In recent years, subabul has become popular among farmers in the southern states also due to its ability to produce pulpwood within a three to five years. On this basis, leucaena leucocephala was selected as potential pulping raw material and alternative source fiber for making the paper. The Leuceana Leucocephala plant has high nutritive content like carbohydrats, protein and fat as alfalfa.it is used as a raw material for making paper, agriculture implements and the seed oil could be used as biofuel by blending with the conventional diesel.
C. J. Patil, G. P. Waghulde and Mrunmayee C. Patil,DOI: 10.24214/IJGHC/GC/6/2/0514
The aryldiazonium salt is used as intermediate in different reactions because, Ar-N2+Cl- are highly reactive compounds. These reactions, either, losses nitrogen containing function or without loss of nitrogen function. In the present piece of work we have reacted the five aryldiazonium salt with phenolic compound (Resorcinol). The final product, 1 to 5 formed has potential to use as azo dyes and as intermediate in other synthetic procedures or transformations
C. J. Patil, Manisha C. Patil and Mrunmayee C. Pati,DOI: 10.24214/IJGHC/GC/6/2/1525
The rare aromatic ketone, 5-Chloro-2-hydroxy-4-methyl-acetophenone is condensed with aniline and its six dialkyl derivatives viz. 2,3-Dimethyl-aniline, 2,4-Dimethyl-aniline, 3,4-Dimethyl-aniline, 2,5-Dimethyl-aniline, 2,6-Dimethyl-aniline,and 3,5-Dimethyl-aniline(each separately) efficiently to produced a series of novel ketimines, CJ-0 to CJ-6. These were analyzed by employing the techniques such as thin layer chromatography(TLC) and UV-Vis spectra. All these novel ketimines were characterized by their colour, physical constant, TLC, elemental analysis and spectral(UV-Vis and FTIR) methods. After confirming their desired molecular studies, these novel ketimines were studied for their biological potential.