Lectures related to Probes Immobilisation: Mechanisms and Models

Self-organized growth at surfaces

Explores self-organized growth at surfaces and covers instrumentation, destructive exposure, manipulation with SIM, nanostructures, and thin film growth.

Proteins: Central Dogma and Translation

Explains protein synthesis, translation, and the central dogma of molecular biology.

Proteins: Structure and Function

Explores the structure and function of proteins, emphasizing their diverse roles in living organisms.

Membrane Dynamics: Molecular Interactions and Hydrophobic Effect

Explores molecular interactions, hydrophobic effect, membrane dynamics, and the use of optical tweezers in biological studies.

Protein Polymers: Biophysics Insights

Delves into protein polymers, discussing co-evolution, diffusion, protein structures, and experimental methods.

Plasma Membrane Structure and Proteins

Covers plasma membrane structure, protein composition, fatty acid variations, protein folding, and amino acid properties.

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.

Protein Folding: Structure and Design

Explores protein folding, hydrophobic interactions, compact conformations, the HP model, co-evolution, and computational methods.

Chemistry of Amino Acids

Covers the organization of the course, protein structure, molecular interactions, and the significance of pH and functional groups.

Hydropathy Scales and Amino Acids Interaction

Explores hydropathy scales for amino acids and their role in predicting protein structure and function.

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.

Introduction to Biochemistry: Amino Acids

Covers the basics of biochemistry, focusing on amino acids and their properties.

Supramolecular Coordination Chemistry

Explores recent developments in metallacycles, molecular squares, cages, and helicates via coordination, highlighting sequence-selective peptide recognition and self-recognition in helicates.

Proteins: Introduction and Properties

Explores the fundamentals of proteins, their production, and natural materials like silk and collagen.

Protein Domains: Structure and Hydrophobicity

Explores protein domains, secondary structures, and hydrophobicity scales in peptides.

Protein Composition and Structure

Explores protein composition, peptide bonds, secondary structures, and protein folding prediction.

Protein Folding: Structure and Interactions

Explores protein folding, amino acids, RNA translation, and attractive forces, emphasizing the importance of native state conformation and compact structures.

Advanced Nanomanufacturing: Lithography & Self-Assembly

Delves into advanced nanomanufacturing techniques, including lithography and block copolymer self-assembly for precise device fabrication.

Macromolecules: Nucleic Acids and Proteins

Explores nucleic acids, proteins, and their vital roles in cell functions and evolution.

Supramolecular Chemistry: Self-Assembly of Conductive Frameworks

Explores the self-assembly of conductive 3D supramolecular organic frameworks using a near-infrared fluorescent macrocyclic probe and fullerenes.