His primary areas of study are Micelle, Inorganic chemistry, Pulmonary surfactant, Critical micelle concentration and Organic chemistry. His Micelle research focuses on Aggregation number in particular. His research in Inorganic chemistry intersects with topics in Ether, Pyridinium, Binding constant and Adsorption.
He works in the field of Pulmonary surfactant, focusing on Microemulsion in particular. His Critical micelle concentration research incorporates elements of Enthalpy, Chromatography, Surface tension and Analytical chemistry. His biological study spans a wide range of topics, including Coacervate and Inulin.
His scientific interests lie mostly in Micelle, Inorganic chemistry, Pulmonary surfactant, Microemulsion and Organic chemistry. In Micelle, Satya P. Moulik works on issues like Conductometry, which are connected to Isothermal microcalorimetry. His Inorganic chemistry research focuses on Adsorption and how it relates to Salt.
His study looks at the relationship between Pulmonary surfactant and topics such as Coacervate, which overlap with Monolayer. His Microemulsion research includes themes of Heptane, Phase, Chromatography and Nuclear chemistry. His study explores the link between Organic chemistry and topics such as Polymer chemistry that cross with problems in Polymer.
Satya P. Moulik spends much of his time researching Micelle, Critical micelle concentration, Pulmonary surfactant, Ionic liquid and Aqueous solution. His study in Micelle focuses on Aggregation number in particular. His research integrates issues of Dynamic light scattering and Gibbs isotherm in his study of Critical micelle concentration.
His Pulmonary surfactant research is multidisciplinary, relying on both Characterization, Calorimetry, Cationic polymerization, Ion sensing and Monomer. His research ties Inorganic chemistry and Aqueous solution together. His work carried out in the field of Inorganic chemistry brings together such families of science as Colloid and Nanoparticle.
Satya P. Moulik mainly focuses on Micelle, Critical micelle concentration, Ionic liquid, Inorganic chemistry and Pulmonary surfactant. Satya P. Moulik combines subjects such as Conductometry, Analytical chemistry and Amphiphile with his study of Micelle. His research in Critical micelle concentration is mostly focused on Thermodynamics of micellization.
His work in Thermodynamics of micellization tackles topics such as Aggregation number which are related to areas like Static light scattering and Hofmeister series. His research in Inorganic chemistry intersects with topics in Photocatalysis, Cationic polymerization, Silver chloride and Nickel. His research integrates issues of Characterization, Ionic bonding and Organic chemistry, Phosphonium, Chloride in his study of Pulmonary surfactant.
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Thermodynamics of Micelle Formation of Ionic Surfactants: A Critical Assessment for Sodium Dodecyl Sulfate, Cetyl Pyridinium Chloride and Dioctyl Sulfosuccinate (Na Salt) by Microcalorimetric, Conductometric, and Tensiometric Measurements
A. Chatterjee;S. P. Moulik;S. K. Sanyal;and B. K. Mishra.
Journal of Physical Chemistry B (2001)
Determination of critical micelle concentration (CMC) of nonionic surfactants by donor-acceptor interaction with lodine and correlation of CMC with hydrophile-lipophile balance and other parameters of the surfactants
Samik Kumar Hait;Satya Priya Moulik.
Journal of Surfactants and Detergents (2001)
Self-Aggregation of Alkyltrimethylammonium Bromides (C10-, C12-, C14-, and C16TAB) and Their Binary Mixtures in Aqueous Medium: A Critical and Comprehensive Assessment of Interfacial Behavior and Bulk Properties with Reference to Two Types of Micelle Formation
G. Basu Ray;I. Chakraborty;S. Ghosh;S. P. Moulik.
A critical assessment of micellization of sodium dodecyl benzene sulfonate (SDBS) and its interaction with poly(vinyl pyrrolidone) and hydrophobically modified polymers, JR 400 and LM 200
S. K. Hait;P. R. Majhi;and A. Blume;S. P. Moulik.
Journal of Physical Chemistry B (2003)
Micellization and Related Behavior of Binary and Ternary Surfactant Mixtures in Aqueous Medium: Cetyl Pyridinium Chloride (CPC), Cetyl Trimethyl Ammonium Bromide (CTAB), and Polyoxyethylene (10) Cetyl Ether (Brij-56) Derived System
Tanushree Chakraborty;Soumen Ghosh;Satya P. Moulik.
Journal of Physical Chemistry B (2005)
Studies on surfactant-biopolymer interaction. I. Microcalorimetric investigation on the interaction of cetyltrimethylammonium bromide (CTAB) and sodium dodecylsulfate (SDS) with gelatin (Gn), lysozyme (Lz) and deoxyribonucleic acid (DNA).
A. Chatterjee;S.P. Moulik;P.R. Majhi;S.K. Sanyal.
Biophysical Chemistry (2002)
Mixed Micelles of Sodium Deoxycholate and Polyoxyethylene Sorbitan Monooleate (Tween 80).
Md.Emdadul Haque;Akhil Ranjan Das;Akhil Ranjan Das;Satya Priya Moulik;Satya Priya Moulik.
joint international conference on information sciences (1999)
Refined method of assessment of parameters of micellization of surfactants and percolation of W/O microemulsions
S. K. Hait;S. P. Moulik;R. Palepu.
Physicochemical studies on the characterization of Triton X 100 micelles in an aqueous environment and in the presence of additives
A. B. Mandal;S. Ray;A. M. Biswas;S. P. Moulik.
The Journal of Physical Chemistry (1980)
Thermodynamics of Micellization of Aerosol OT in Binary Mixtures of Water, Formamide, Ethylene Glycol, and Dioxane
Kallol Mukherjee;Dulal C. Mukherjee;Satya P. Moulik.
The Journal of Physical Chemistry (1994)
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