Deepak Patil

TL;DR: This work isolated the endophytic fungi from Catharanthus roseus plant and found a fungus AA-CRL-6 which produces vinblastine and vincristine in appreciable amounts and was identified as Fusarium oxysporum based upon its cultural and morphological characteristics and internal transcribed spacer (ITS) sequence analysis.

TL;DR: In this article, the authors discuss the possible origin of the high thermal stability of superhard nanocomposites, prepared according to the generic concept for their design published earlier, and they show that in systems which show a strong thermodynamically driven segregation (i.e. they are immiscible), the nanostructure and resulting superhardness (measured at room temperature) remain stable up to high temperatures of ≥1100°C.

TL;DR: In this paper, it was shown that the percolative properties of phase segregation are responsible for the hardness of superhard nanocomposites, and that the formation of a nanostructure that is stable against coarsening up to relatively high temperatures is a consequence of the thermodynamically driven segregation of immiscible phases.

TL;DR: It was found that increase in the mass proportion of IA based PUA in coatings, the coating becomes more rigid and crystalline, and decrease in viscosity of resin as concentration of synthesized UV curable PUA resin increases in conventional PUA resins.

TL;DR: The bio-based amine functional benzoxazine (Bnz) resin was synthesized from cardanol, N, N' -Bis(2-aminoethyl)ethane-1,2-diamine and paraformaldehyde by the Mannich condensation reaction as discussed by the authors.