Lectures related to Soft Matter Overview

Explores polymer structure in solution, covering bonding, forces, and properties.

Explores various chemical bond types and interactions between atoms through electrons, emphasizing the significance of understanding these bond characteristics.

Polymer Science: Secondary Interactions and Cohesive Energy

Explores polymer structures, cohesive energy, molecular orbitals, and non-covalent interactions influencing molecular organization.

Intermolecular Interactions: Forces and Bonds

Covers intermolecular forces, hydrogen bonding, biological molecules, DNA structure, and relative strengths of interactions.

Advanced General Chemistry I: Chemical Bonding

Explores advanced topics in chemical bonding, covering valence configurations, hybridization, carbon forms, double bonds, and intermolecular interactions.

Electrons in Periodic Potential: Band Structure

Covers electrons in periodic potential, band structure, intermolecular forces, and Van der Waals interactions in nanotechnology and surface science.

Chemical Bonding: Types and Properties

Explores atomic attraction, covalent bonds, and intermolecular forces influencing physical properties.

Supramolecular Chemistry: Self-Assembly of Heterobimetallic Systems

Explores the self-assembly of heterobimetallic systems to create robust duplexes in water, emphasizing the importance of synthetic H-bond systems for materials fabrication.

Hydrogen Bonds in Biochemistry

Explores the role of hydrogen bonds in biochemistry, from water properties to DNA structure and protein stability.

Supramolecular Chemistry: Basics and Molecular Interactions

Covers the basics of supramolecular chemistry, including self-assembly processes and molecular interactions such as hydrogen bonding and cation-π interactions.

Endocytosis of Materials

Delves into the significance of size, shape, and charge in cellular endocytosis processes, emphasizing the design of materials for efficient cellular uptake.

Intermolecular Interactions: Polar Molecules and Hydrogen Bonds

Explores intermolecular forces, polar molecules, hydrogen bonding, and London forces.

Molecular Geometry and Hybridization

Explores molecular geometry, hybridization, covalent bonds, intermolecular forces, and water properties.

Surfactants and Micelles: Colloidal Stability

Explores the role of surfactants and micelles in achieving steric stability for ceramic production.

DNA Nanotechnology: Origami and Nanophotonics

Explores DNA origami nanotools for nanophotonics, focusing on light control at the nanoscale and the challenges in technological breakthroughs.

Ceramic Powders: Fragmentation Operations

Explores ceramic powder transformation through fragmentation operations, particle rupture mechanisms, and interparticle forces like van der Waals forces.

Molecular Geometry and Hybridization

Explores molecular geometry, hybridization, chemical bonds formation, and intermolecular forces like hydrogen bonding.

Chemical Bonding: Lewis Structures and Molecular Shapes

Explores chemical bonding, Lewis structures, molecular shapes, and molecular polarity.

Molecular Interactions in Biomolecules

Covers the essentials of life, energetic principles, and molecular interactions in biomolecules, focusing on noncovalent forces.

Surface Tension and Contact Angle

Explores surface tension, contact angle, wetting phenomena, and nanoparticle behaviors at different scales.