On the Origin of Iron-Oxide Nanoparticle Formation Using Phospholipid Membrane Template
Ratan Sarkar, Prabir Pal, Mrityunjoy Mahato, Tapanendu Kamilya, Avinanda Chaudhuri, and G. B. Talapatra
Colloids and Surfaces B Biointerfaces (in press)
Different stages of iron nanoparticle formation beneath DPPC monolayer
Hemoglobin-Silver Interaction and Bioconjugate Formation: A Spectroscopic Study
Mrityunjoy Mahato, Prabir Pal, Tapanendu Kamilya, Ratan Sarkar, Avinanda Chaudhuri and G. B. Talapatra
J. Phys. Chem. B 2010, 114, 7062-7070
On the Formation of Calcium Carbonate Crystal Using Phospholipid Monolayer Template under Ambient Condition
Prabir Pal, Tapanendu Kamilya, Somobrata Acharya and G. B. Talapatra
J. Phys. Chem. C 2010, 114(18), 8348-8352
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FESEM Image |
HRTEM Image |
Simulated Structure |
Single crystal & Aggregates Structure |
CaC03 Mineralization on DPPC Monolayer
Tailor Made Synthesis of Amphiphillic Azoaromatics via Regioselective C-N Bond Fusion. Comparative Studies of Surface Properties of the Two Positional Isomers and Cobalt Complexes
Sucheta Joy, Prabir Pal, Mrityunjoy Mahato, G. B. Talapatra and Sreebrata Goswami
Dalton Transactions 39, 2775–2784, 2010
pH Induced Structural Modulation and Interfacial Activity of Hemoglobin at Air/Water Interface
Mrityunjoy Mahato, Prabir Pal, Tapanendu Kamilya, Ratan Sarkar and G. B. Talapatra
J. Phys. Chem. B 2010, 114, 495–502
Adsorption of pepsin in octadecylamine matrix at air-water interface
Tapanendu Kamilya, Prabir Pal and G. B. Talapatra
Biophysical Chemistry 146, 2010, 85–91
FE-SEM images of transferred film. Panel A: pure octadecylamine film. Panel B: pepsin monolayer film transferred at π =35 mN/m. Panels C and D represent the octadecylamine - pepsin LB film transferred at p =35 and 20 mN/m, respectively from pure water subphase
The formation of pepsin monomolecular layer by the Langmuir-Blodgett film deposition technique
Prabir Pal, Tapanendu Kamilya Mrityunjoy Mahato and G. B. Talapatra
Colloids and Surfaces B Biointerfaces, 2009, 73, 122–31
FE-SEM images of transferred monolayer of pepsin. Panels A and B represent the surface morphology of pepsin LB monolayer transferred at ð =12 and 35 mN/m respectively from pure water subphase. Panels C and D represent the surface morphology of pepsin LB monolayer transferred at ð =12 and 40 mN/m respectively from optimized subphase
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π-A isotherm at 26ºC of pure pepsin at air/water interface |
π-A isotherm at 26ºC of pure pepsin at optimized subphase |
Effect of salt on the formation of alcohol-dehydrogenease monolayer: A study by Langmuir-Blodgett technique
Tapanendu Kamilya, Prabir Pal, Mrityunjoy Mahato and G. B. Talapatra
J. Phys. Chem. B, 2009, 113, 5128-5135
AFM image of LB film of ADH in nanometer scale with height profile, lifted from pure water subphase at π = 35 mN/m
Fabrication of Ovalbumin–Phospolipid thin film with minimal protein aggregation by different self-assembly methods
Tapanendu Kamilya, Prabir Pal, Mrityunjoy Mahato and G. B. Talapatra
J. Nanosci. Nanotechnol. 2009, 9, 2956-2964
Immobilization and the conformational study of phospholipid and phospholipid-protein vesicles
Tapanendu Kamilya, Prabir Pal, Mrityunjoy Mahato and G. B. Talapatra
Mat. Sci. Eng. C 29 (2009) 1480–1485
High resolution FESEM image of Ovalbumin embedded DPPC vesicle surface