Discover JPT's NEW Hydrogel Forming Peptides!

We are expanding our range of peptide categories and are pleased to introduce a new product line to our peptide catalog: Hydrogel Forming Peptides! 

Peptide-Based Hydrogels: A Breakthrough in Biomaterials 

Peptide-based hydrogels are revolutionizing the field of biomaterials with and their versatility and biocompatibility. These water-rich, three-dimensional networks mimic biological tissues. Among other materials, such hydrogels can be formed via the self-assembly or peptides. The creation of such tunable structures come with broad applications in the fields of tissue engineering, drug delivery, wound healing, and regenerative medicine. 

Peptide-based hydrogels are biocompatible, biodegradable, and self-assemble in aqueous solutions without the need for gelators or cross-linking, thus making them ideal candidates for their use in biomedicine research. These peptides can self-assemble into ordered nano-structures (fibers, sheets, and tubes), and closely resemble extracellular matrixes in both structure and function. This innovation holds great potential for advancing medical treatments and therapies. 

In our catalog, we offer the following peptides: 

• 18A Peptide 
• EAK16-II 
• Fmoc-FF Peptide (Fmoc-Phe-Phe-OH) 
• IKVAV Peptide (H-Ile-Lys-Val-Ala-Val-OH) 
• IVZK self-assembling peptide 
• RADA16 

Have a look at the other peptides in our catalog such as Antigen Peptides, Diabetes Peptides, Affinity Tags and many more. 

JPT's Custom Peptide Synthesis 

We also provide the option to produce other peptides: 

• Customizable Solutions: If your peptide choice not in the catalog? Check out our customized options, tailored specifically to your specific research needs! 
• Expert Support Team: Optimize the use of said peptides in your experiments and ensure the best outcome for your research. 
• Quality Grades: Standard, ISOplus, or CGP suitable for GMP manufacturing processes 
• Cost-Effective & Scalable: Competitive pricing with scalable solutions ranging from µ-grams to grams, suitable for both small-scale studies and large-scale screenings.