Molecular self-assembly is a multi-disciplinary field of research, with potential chemical and biological applications. One of the main driving forces of self-assembly is molecular amphiphilicity, which can drive formation of complex and stable nanostructures. Self-assembling peptide and peptide conjugates have attracted great attention due to their biocompatibility, biodegradability and biofunctionality. Understanding assembly enables the better design of peptide amphiphiles which may form useful and functional nanostructures. This review covers self-assembly of amphiphilic peptides and peptide mimetic materials, as well as their potential applications
Self-assembling systems play a significant role in physiological functions and have therefore attr...
Natural biomolecular systems have evolved to form a rich variety of supramolecular materials and mac...
The self-assembly and structural and functional properties of peptide conjugates containing bulky te...
Molecular self-assembly is a key function in biology and has been developed as an elegant technique ...
Molecular self-assembly offers unique features for the development of novel supramolecular structure...
The self-assembly of amphiphilic peptides is reviewed. The review covers surfactant-like peptides wi...
The design of functional systems with sizes in the nanometer range is a key challenge in fields such...
Self-assembly is a ubiquitous process in biology where it plays numerous important roles and underli...
The self-assembly of several classes of amphiphilic peptides is reviewed, and selected applications ...
Self-assembling peptides could be considered a novel class of agents able to harvest an array of mic...
The formation of well-ordered nanostructures through self-assembly of diverse organic and inorganic ...
Feng Qiu,1,2 Yongzhu Chen,2,3 Chengkang Tang,2,4 Xiaojun Zhao2 1Laboratory of Anaesthesia and Criti...
Self-assembled structures obtained from organic molecules have shown great potential for application...
Self-assembling surfactant-like peptides have been explored as emerging nanobiomaterials in recent y...
Self-assembling peptides could be considered a novel class of agents able to harvest an array of mic...
Self-assembling systems play a significant role in physiological functions and have therefore attr...
Natural biomolecular systems have evolved to form a rich variety of supramolecular materials and mac...
The self-assembly and structural and functional properties of peptide conjugates containing bulky te...
Molecular self-assembly is a key function in biology and has been developed as an elegant technique ...
Molecular self-assembly offers unique features for the development of novel supramolecular structure...
The self-assembly of amphiphilic peptides is reviewed. The review covers surfactant-like peptides wi...
The design of functional systems with sizes in the nanometer range is a key challenge in fields such...
Self-assembly is a ubiquitous process in biology where it plays numerous important roles and underli...
The self-assembly of several classes of amphiphilic peptides is reviewed, and selected applications ...
Self-assembling peptides could be considered a novel class of agents able to harvest an array of mic...
The formation of well-ordered nanostructures through self-assembly of diverse organic and inorganic ...
Feng Qiu,1,2 Yongzhu Chen,2,3 Chengkang Tang,2,4 Xiaojun Zhao2 1Laboratory of Anaesthesia and Criti...
Self-assembled structures obtained from organic molecules have shown great potential for application...
Self-assembling surfactant-like peptides have been explored as emerging nanobiomaterials in recent y...
Self-assembling peptides could be considered a novel class of agents able to harvest an array of mic...
Self-assembling systems play a significant role in physiological functions and have therefore attr...
Natural biomolecular systems have evolved to form a rich variety of supramolecular materials and mac...
The self-assembly and structural and functional properties of peptide conjugates containing bulky te...