The polycrystalline samples of the pyrochlore-type Dy[sub]2[/sub](Ba[sub]0.5[/sub]R[sub]0.5[/sub])[sub]2[/sub]O[sub]7[/sub] (R = W, Mo) compounds have been prepared by a hightemperature solid-state reaction technique. Pr...
In this study, we have synthesized chitosan-grafted-styrene (Ch-g-sty) without any radical initiator or catalyst using microwave (MW) irradiation. Ch-g-sty was synthesized with 187% grafting using 80 % MW power in 40 sec...
Over the past few years, bionanomaterial research has emerged as a new exciting field and the importance of DNA, RNA and peptides in designing bionanomaterials for the fundamental development in biotechnology and nanomat...
In recent years, molecularly imprinted polymers (MIPs) have attracted much attention due to many of its potential applications including sensors, separation, catalysis, drug delivery and waste management. To prepare MIPs...
Development of functional tissues often requires spatially controlled growth of cells over 2D surfaces or 3D substrates to maintain their distinct cellular functions; particularly it is essential for culturing anch...
Structural and dielectric properties of Dy2(Ba0.5R0.5)2O7 (R = W, Mo) ceramics
The polycrystalline samples of the pyrochlore-type Dy[sub]2[/sub](Ba[sub]0.5[/sub]R[sub]0.5[/sub])[sub]2[/sub]O[sub]7[/sub] (R = W, Mo) compounds have been prepared by a hightemperature solid-state reaction technique. Pr...
ERRATUM to “Microwave assisted synthesis of chitosan-graft-styrene for efficient Cr(VI) removal”: [Adv. Mat. Lett. 2010, 1(1), 59-66]
In this study, we have synthesized chitosan-grafted-styrene (Ch-g-sty) without any radical initiator or catalyst using microwave (MW) irradiation. Ch-g-sty was synthesized with 187% grafting using 80 % MW power in 40 sec...
Bio- nanomaterials for versatile bio- molecules detection technology
Over the past few years, bionanomaterial research has emerged as a new exciting field and the importance of DNA, RNA and peptides in designing bionanomaterials for the fundamental development in biotechnology and nanomat...
Deoxyribonucleic acid imprinted biosensor technology
In recent years, molecularly imprinted polymers (MIPs) have attracted much attention due to many of its potential applications including sensors, separation, catalysis, drug delivery and waste management. To prepare MIPs...
Spatially controlled cell growth using patterned biomaterials
Development of functional tissues often requires spatially controlled growth of cells over 2D surfaces or 3D substrates to maintain their distinct cellular functions; particularly it is essential for culturing anch...