Hydrogel Synthesis

Source: Amber N. Barron, Ashlea Patterson, and Taylor D. Sparks, Department of Materials Science and Engineering, The University of Utah, Salt Lake City, UT

Hydrogels are a versatile class of cross-linked polymers produced through relatively simple procedures and with generally inexpensive materials. They can be formed from solution and involve a polymer backbone formed from monomer reagents, an initiator which makes the polymer reactive and a crosslinking species which binds the polymer chains together. An important aspect of these materials is that they swell in the presence of water, but this response can be tuned further to enhance swelling as a function of salinity, pH, or other signals. As a final product, hydrogels can be used in aqueous or dry environments, with a range of useful properties such as flexibility, high absorbance, transparency and thermal insulation. They are commonly used for liquid absorbance, sensors, consumer products, and drug delivery.

The pre-gel solution was created in a 1000µl test tube; materials, role in polymerization and amounts added are listed in Tables 1.

Material	Purpose	Structure	Mole percent
2,2-Dimethoxy-2-phenyl-acetophenone (DMPAP)	Free readical initiator (photoinitiator) Log in or to access full content. Learn more about your institution’s access to JoVE content here The final hydrogel monomer is shown in Figure 7, and the synthesized hydrogels are shown in Figure 8. The degree of swelling was found to be approximately 136% for the 1 min sample, 387% for the 1.5 min sample and 81% for the 5 min sample. These results demonstrate the relationship between degree of crosslinking, or the extent to which the network is connected, and swelling ability. More links between the polymer molecules mean m Log in or to access full content. Learn more about your institution’s access to JoVE content here Hydrogel synthesis is a technique for producing crosslinked polymeric materials which can swell in response to liquid, UV light, pH, or a range of other stimulants. Synthesis by combination of liquid solutions is advantageous for the simplicity of mixing and forming hydrogels, though the final product is generally impure and tends to contain polymers with low molecular weights. This specific procedure, while simple, involves chemicals that are both toxic and flammable, and therefore requires extreme care and preventative Log in or to access full content. Learn more about your institution’s access to JoVE content here Hydrogels are a versatile class of cross-linked polymers, produced through relatively simple procedures using generally inexpensive materials. They are commonly used for liquid absorbents, sensors, consumer products and drug delivery. Hydrogels can be formed from solution, with an initiator making monomerie agents reactive to form a polymer backbone. A crosslinking species then binds the polymer chains together. An important aspect of these materials is that in the presence of water they swell. But this response can be tuned further to enhan Log in or to access full content. Learn more about your institution’s access to JoVE content here Explore More Videos Hydrogel Synthesis Cross linked Polymers Inexpensive Materials Liquid Absorbents Sensors Consumer Products Drug Delivery Polymer Backbone Crosslinking Species Water Swelling Salinity PH Aqueous Environments Dry Environments Flexibility High Absorbance Transparency Thermal Insulation Characterization Of Hydrogels Water Absorption Hydrophilic Species Ionic Species Swelling Mechanism Privacy Terms of Use Policies Contact Us Recommend to library JoVE NEWSLETTERS Research JoVE Journal Methods Collections JoVE Encyclopedia of Experiments Archive Education JoVE Core JoVE Business JoVE Science Education JoVE Lab Manual Faculty Resource Center Faculty Site Authors Overview Publishing Process Editorial Board Scope and Policies Peer Review FAQ Submit Librarians Overview Testimonials Subscriptions Access Resources Library Advisory Board FAQ ABOUT JoVE Overview Leadership Blog Copyright © 2024 MyJoVE Corporation. All rights reserved