Skip to main content

Search

Show all results for

Home

Lecture

Swelling of Hydrogels

About
Privacy
Disclaimer

Copyright © 2025 EPFL, all rights reserved

Graph Chatbot

Description

This lecture covers the concept of hydrogels, their swelling behavior, and the osmotic pressure involved. It also delves into the deformation of hydrogels, free energy, and Gaussian distribution in polymer chains.

Official source

https://mediaspace.epfl.ch/media/0_366ef87x

About this result

This page is automatically generated and may contain information that is not correct, complete, up-to-date, or relevant to your search query. The same applies to every other page on this website. Please make sure to verify the information with EPFL's official sources.

In course

DEMO: enim nostrud ut

Veniam in occaecat id ut mollit nostrud. Ex ullamco minim labore dolor quis. Deserunt commodo ullamco qui mollit amet Lorem esse dolore ea. Aliqua occaecat commodo duis aute dolore consectetur incididunt sit officia esse. Velit Lorem deserunt occaecat amet et laboris tempor commodo ipsum consectetur minim reprehenderit.

Instructors (2)

qui laboris amet irure

Dolor eiusmod eiusmod aute aliquip officia excepteur aliquip aliqua ut aliqua sint. Do occaecat fugiat ullamco ex nulla enim veniam sit tempor laborum. Labore non commodo adipisicing qui labore magna excepteur ullamco aliqua culpa et. Occaecat aliqua nisi aliquip id nulla ut nisi. Quis nisi esse consectetur amet aute enim minim exercitation exercitation dolor officia.

dolore cillum sunt

Officia tempor laboris nostrud nulla incididunt Lorem quis commodo amet. Qui officia anim ipsum aute nulla fugiat cupidatat tempor enim voluptate elit do. Cillum esse nulla duis elit nisi ex excepteur commodo. In nulla laborum eiusmod laborum nisi fugiat quis Lorem aliqua deserunt. In cillum deserunt quis irure.

Related lectures (30)

Force-extension relation of a polymer

Explores the force-extension relation of polymers through experiments and models.

Gels: Swelling, Deformation, and Applications

Covers the properties and behavior of gels, focusing on swelling, deformation, and applications in drug delivery and tissue engineering.

Symmetry and Conservation in the Cell

Explores exceptions to thermodynamics, entropy, free energy, entropic springs, phase transitions, and polymer mixtures in cellular organization.

Cellular Mechanisms: Understanding Internal Processes and Escape Strategies

Covers cellular processes, focusing on internal mechanisms and strategies for particle escape from lysosomes and endosomes.

Rubber Elasticity: Theory and Applications

Explores the theory of rubber elasticity, including entropy-driven behavior, swelling of polymer networks, and applications of thermoplastic elastomers.