Selfassembling peptide-This chapter introduces the concept of peptides that spontaneously arrange themselves into organized structures, essential for numerous applications in nanomedicine and material science
Peptide-Delve into the fundamental building blocks of peptides, exploring their role in biological functions and their potential in selfassembly for advanced materials
Directed assembly of micro and nanostructures-Learn how precise manipulation of peptides enables the creation of intricate micro and nanoscale structures, opening doors to innovations in nanotechnology
Hydrogel-Discover the properties and applications of hydrogels in creating versatile materials that can be used in drug delivery, tissue engineering, and biomaterials
Coiled coil-This chapter explains the coiledcoil motif found in peptides, offering insight into its role in protein folding and its potential for use in nanostructure design
Nanotechnology-Explore the broader field of nanotechnology, with a focus on how selfassembling peptides are revolutionizing material science, medicine, and electronics
Protein structure-Gain a deeper understanding of protein folding and the role peptides play in determining the structure and function of proteins, essential for creating engineered biomaterials
Proteolipid-This chapter discusses the hybrid structures of proteins and lipids, highlighting their significance in the development of nanostructures and their potential medical applications
Nanoelectronics-Learn about the intersection of peptides and electronics, focusing on how selfassembling peptides can be used to create functionalized nanomaterials for advanced electronic devices
Jiban Jyoti Panda-A special focus on the contributions of Jiban Jyoti Panda to the field of peptide selfassembly, providing insight into cuttingedge research and applications
Selfassembly of nanoparticles-This chapter highlights the role of peptides in the selfassembly of nanoparticles, essential for creating materials with novel properties for various applications
Shuguang Zhang-Explore the pioneering work of Shuguang Zhang, who has made significant strides in the field of peptidebased nanotechnology, offering a deeper understanding of its potential
DNA nanotechnology-A key chapter exploring the integration of DNA with peptides to create complex, functional nanostructures, paving the way for innovative applications in biomedicine and material science
Hydrophobicity scales-Understand how hydrophobicity affects the behavior of peptides and their ability to selfassemble, which is critical for the design of peptidebased materials
Hydrophobin-Learn about hydrophobin proteins and their role in selfassembly processes, focusing on their applications in biotechnology and materials science
Nanostructure-Dive into the various types of nanostructures that can be created through peptide selfassembly, highlighting their potential in fields such as drug delivery, tissue engineering, and material fabrication
Biointerface-This chapter discusses the interaction between biological systems and materials, explaining how peptides can be used to design biocompatible interfaces for medical and industrial applications
Nanomaterials-Explore the role of peptides in creating novel nanomaterials, which are revolutionizing fields such as electronics, renewable energy, and healthcare
Peptide amphiphile-Learn how peptide amphiphiles can selfassemble into micelles and nanofibers, offering versatile platforms for drug delivery and tissue engineering
Peptide therapeutics-Discover the growing field of peptidebased therapeutics, focusing on how these molecules are used to treat diseases and improve patient outcomes
