CLL730: Difference between revisions
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| credits = 3 | | credits = 3 | ||
| credit_structure = 3-0-0 | | credit_structure = 3-0-0 | ||
| pre_requisites = CLL110 | | pre_requisites = [[CLL110]] | ||
| overlaps = SBV882, MCL442 | | overlaps = [[SBV882]], [[MCL442]] | ||
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== CLL730 : Structure, Transport and Reactions in BioNano Systems == | == CLL730 : Structure, Transport and Reactions in BioNano Systems == | ||
Introduction to biology: protein structure, composition, pKa and isoelectric point. Governing equations applied to biological systems: conservation laws, flux equations, mathematical functions and solutions, scaling and order, laminar flow. Electromechanical transport: biomolecular migration through blood capillaries, Poisson-Boltzmann equation in heterogeneous media, electrical-shear stress balance in electrical double layers. Transport across membranes: structure and self-assembly of lipid bilayers, ligand-receptor interactions, membrane permeability, Nernst potential, adsorption isotherms and transport across membrane. Estimation of transport coefficients based on biomolecular interactions. Research-specific case studies incorporating coupled migration through reactive, electrical and heterogeneity considerations. | Introduction to biology: protein structure, composition, pKa and isoelectric point. Governing equations applied to biological systems: conservation laws, flux equations, mathematical functions and solutions, scaling and order, laminar flow. Electromechanical transport: biomolecular migration through blood capillaries, Poisson-Boltzmann equation in heterogeneous media, electrical-shear stress balance in electrical double layers. Transport across membranes: structure and self-assembly of lipid bilayers, ligand-receptor interactions, membrane permeability, Nernst potential, adsorption isotherms and transport across membrane. Estimation of transport coefficients based on biomolecular interactions. Research-specific case studies incorporating coupled migration through reactive, electrical and heterogeneity considerations. | ||
Latest revision as of 16:24, 14 April 2026
| CLL730 | |
|---|---|
| Structure, Transport and Reactions in BioNano Systems | |
| Credits | 3 |
| Structure | 3-0-0 |
| Pre-requisites | CLL110 |
| Overlaps | SBV882, MCL442 |
CLL730 : Structure, Transport and Reactions in BioNano Systems
Introduction to biology: protein structure, composition, pKa and isoelectric point. Governing equations applied to biological systems: conservation laws, flux equations, mathematical functions and solutions, scaling and order, laminar flow. Electromechanical transport: biomolecular migration through blood capillaries, Poisson-Boltzmann equation in heterogeneous media, electrical-shear stress balance in electrical double layers. Transport across membranes: structure and self-assembly of lipid bilayers, ligand-receptor interactions, membrane permeability, Nernst potential, adsorption isotherms and transport across membrane. Estimation of transport coefficients based on biomolecular interactions. Research-specific case studies incorporating coupled migration through reactive, electrical and heterogeneity considerations.