Science Alert: Singapore Journal of Scientific Research

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Singapore Journal of Scientific Research

Publisher: Science Alert

	Singapore Journal of Scientific Research is a quarterly, peer-reviewed international research journal that addresses both applied and theoretical issues. The scope of the journal encompasses research articles, original research reports, reviews, short communications and scientific commentaries in the fields of applied and theoretical sciences, biology, chemistry, physics, zoology, medical studies, environmental sciences, mathematics, statistics, geology, engineering, computer science, social sciences, natural sciences, technological sciences, linguistics, medicine, industrial, and all other applied and theoretical sciences.

	Editor-in-Chief: Apply for Editor-in-Chief

eISSN: 2010-0051
pISSN: 2010-006x

Publications by Dr. Ashish Chauhan

Chauhan, A. and B. Kait, 2008. Synthesis, characterization and evaluation of the transformation in Hibiscus sadarifffa-g-poly (Butylacrylate). E. J. Chem., 5: 980-986.

Chauhan, A. and B. Kaith, 2008. Synthesis, characterization and mechanical evaluation of phenol-formaldehyde composites. E. J. Chem., 5: 1015-1020.

Chauhan, A. and B. Kaith, 2010. Thermo-chemical evaluation of the roselle graft copolymers. Polym. Renewable Res., 1: 173-187.

Chauhan, A. and B. Kaith, 2011. Development and assessment of the advanced graft obtained from Hibiscus sabdariffa biomass. J. Appl. Polym. Sci., 10.1002/app.34635.
CrossRef | Direct Link |

Chauhan, A. and B. Kaith, 2011. Evaluation of the morphological transformations in novel graft copolymers obtained from Hibiscus sabdariffa stem fibre. Polym. Renew. Res., 2: 49-67.

Chauhan, A. and B. Kaith, 2011. Evaluation of morphological transition in advanced materials. Der. Chemica. Sinica., 2: 20-29.
Direct Link |

Chauhan, A. and B. Kaith, 2011. Physico-chemico-thermal Assessment of H. sabdariffa-graft-copolymers. Der. Chemica. Sinica., 2: 30-40.
Direct Link |

Chauhan, A. and B. Kaith, 2011. Synthesis, characterization and chemical studies of Hibiscus sabdariffa-g-copolymers. Fiber, Polym., 12: 1-7.
CrossRef | Direct Link |

Chauhan, A. and B. Kaith, 2011. Synthesis, characterization and evaluation of novel regenerated Hibiscus sabdariffa-graft-poly(Acrylonitrile-co-Vinyl Monomer), Malaysia. Polym. J., 6: 14-26.

Chauhan, A. and B. Kaith, 2011. Thermal and chemical studies of Hibiscus sabdariffa-graft-(Vinyl monomers). Int. J. Polym. Mat., 60: 1-15.

Chauhan, A. and B. Singh, 2011. X-Ray powder diffraction studies to accredit the morphological transformations in Hibiscus sabdariffa graft-copolymers. Int. J. Polym. Anal. Charact., 16: 319-328.
Direct Link |

Chauhan, A., B. Kaith and B.N. Mishra, 2008. Studying the morphological transformation in graft copolymers of binary mixture of methyl acrylate and acrylonitrile onto Hibiscus sabdariffa fiber by XRD and TGA/DTA. J. Polym. Mat., 25: 69-76.

Chauhan, A., B. Kaith and S. Singha, 2006. X-Ray diffraction studies and thermogravimetric / differential thermal analysis of graft co-polymers of methylacrylate onto Hibiscus sabdariffa fiber. J. Polym. Mat., 23: 349-356.

Chauhan, A., B. Kaith, A.S. Singha and D. Pathania, 2009. Induction of the morphological changes in Hibiscus sabdariffa fiber on graft copolymerization with binary vinyl monomer mixtures. Int. J. Polym. Anal. Charact., 14: 246-258.

Chauhan, A., B. Kaith, A.S. Singha and D. Pathania, 2010. Induction of the morphological changes in Hibiscus sabdariffa on graft copolymerization with acrylonitrile and co-vinyl monomer in binary mixtures, Malaysia. Polym. J., 5: 140-150.
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