Concerns the study of polymers, which are large molecules made up of many repeated units.
Polymer Structure and Dynamics: Understanding the basic structure and behavior of polymers is fundamental to polymer physics. This includes the study of monomers, polymers, and macromolecules, their properties, and their dynamic behavior.
Polymer Conformation: Polymer conformation refers to the ways in which polymers adopt different shapes and positions due to different molecular interactions. This includes the study of polymer shapes, configurations, and structure.
Polymer Rheology: Polymer rheology is the study of how polymers deform and flow under different conditions, such as shear stress and viscosity. This includes the study of viscoelasticity, mechanical properties, and flow behavior.
Polymer Thermodynamics: Polymer thermodynamics is the study of the relationship between the thermodynamic properties of polymers, such as enthalpy, entropy, temperature, and pressure. This includes the study of polymer solutions, polymer blends, and phase transitions.
Polymer Physics of Interfaces: Polymer interfaces are the surfaces where two different materials meet. The physics of polymer interfaces encompasses the study of interfacial properties, intermolecular forces, surface tension, and adhesion.
Polymer Processing: Polymer processing is the study of how polymers can be shaped and transformed using different techniques. This includes the study of extrusion, molding, and casting.
Polymer Degradation: Polymer degradation is the study of how polymers break down over time due to various environmental factors, such as heat, light, and chemical exposure. This includes the study of polymer aging, stability, and degradation mechanisms.
Soft Matter Physics: Soft matter physics is a subfield of polymer physics that focuses on the study of materials with both solid and liquid-like properties, such as polymers, gels, and colloids. This includes the study of soft matter structures, dynamics, and self-assembly.
Polymer Nanocomposites: Polymer nanocomposites are a class of materials made by combining polymers with nanoscale particles. The physics of polymer nanocomposites encompasses the study of their properties, synthesis, and applications.
Polymer Theory and Modeling: Polymer theory and modeling is the use of mathematical models and computational methods to simulate and predict the behavior of polymers. This includes the study of statistical mechanics, molecular dynamics, and Monte Carlo simulations.
Polymer Mechanics: This area of Polymer Physics deals with the study of the mechanical properties of polymers, such as elasticity, stiffness, and viscosity.
Polymer Rheology: Rheology is the study of the deformation and flow of matter under the influence of an applied stress or strain. Polymer Rheology is a subfield of polymer physics that studies the flow behavior of polymers.
Polymer Synthesis: This area of Polymer Physics deals with the synthesis of polymers, including the manufacturing of new polymers and the modification of existing polymers.
Polymer Characterization: This subfield of Polymer Physics focuses on the characterization of the physical properties of polymers, including molecular weight, size, and structure.
Polymer Dynamics: Polymer Dynamics is concerned with the study of the motion of individual polymer molecules and their interactions. This field is also known as Polymer Molecular Dynamics.
Polymer Structure: Polymer Structure involves the investigation of the arrangement of atoms, molecules, and macromolecules in polymer materials.
Polymer Solutions: This area of Polymer Physics is concerned with the study of the behavior of polymers in solutions. This includes the solubility, swelling, and diffusion properties of polymers.
Polymer Blends: Polymer Blends is a subfield of Polymer Physics that studies the behavior of polymer mixtures. Blends can have distinct and unique properties based on the chemical nature of the different polymers that make them up.
Polymer Surfaces and Interfaces: This subfield of Polymer Physics is concerned with the properties and behavior of polymer surfaces and interfaces.
Polymer Electrolytes: Polymer Electrolytes is a subfield of Polymer Physics that studies the electrical properties of polymers, including their ability to conduct electricity.