Add to ORKGThe diversity of life on Earth is made possible through an immense variety of proteins that stems from less than a couple of dozen native amino acids. Is it possible to achieve similar engineering freedom and precision to design electronic materials? What if a handful of nonnative residues with a wide range of characteristics could be rationally placed in sequences to form organic macromolecules with specifically targeted properties and functionalities? Referred to as molecular electrets, dipolar oligomers and polymers composed of non-native aromatic beta-amino acids, anthranilamides (Aa) provide venues for pursuing such possibilities. The electret molecular dipoles play a crucial role in rectifying charge transfer, e.g., enhancing charge s...
This thesis aimed to synthesise new materials that can potentially be used in devices such as photov...
Over the years, chemists have become masters of covalent bond formation, demonstrated by the ability...
Bio-endogenous peptide molecules are ideal components for fabrication of biocompatible and environme...
The diversity of life on Earth is made possible through an immense variety of proteins that stems fr...
In biology, an immense diversity of protein structural and functional motifs originates from only 20...
Photon conversion efficiency is primarily impaired by interfacial charge recombination. Natural ligh...
Accounting for the best features of biological electrets and biomolecular charge transfer (CT) syste...
As electrostatic equivalents of magnets, organic electrets offer unparalleled properties for impacti...
“Biomimetic” and “bioinspired” define different aspects of the impacts that biology exerts on scienc...
Molecular-level control of charge transfer is essential for organic electronics and solar energy con...
In order to develop and demonstrate fundamental strategies for improving the efficiency of photovolt...
Electrostatics, a result of one of the fundamental forces of nature, govern and underlie fundamental...
Getting inspiration from nature and further developing functional architectures provides an effectiv...
Controlling charge transfer at a molecular scale is critical for efficient light harvesting, energy ...
Molecular level control over macromolecules has been at the heart of human advancement, long before ...
This thesis aimed to synthesise new materials that can potentially be used in devices such as photov...
Over the years, chemists have become masters of covalent bond formation, demonstrated by the ability...
Bio-endogenous peptide molecules are ideal components for fabrication of biocompatible and environme...
The diversity of life on Earth is made possible through an immense variety of proteins that stems fr...
In biology, an immense diversity of protein structural and functional motifs originates from only 20...
Photon conversion efficiency is primarily impaired by interfacial charge recombination. Natural ligh...
Accounting for the best features of biological electrets and biomolecular charge transfer (CT) syste...
As electrostatic equivalents of magnets, organic electrets offer unparalleled properties for impacti...
“Biomimetic” and “bioinspired” define different aspects of the impacts that biology exerts on scienc...
Molecular-level control of charge transfer is essential for organic electronics and solar energy con...
In order to develop and demonstrate fundamental strategies for improving the efficiency of photovolt...
Electrostatics, a result of one of the fundamental forces of nature, govern and underlie fundamental...
Getting inspiration from nature and further developing functional architectures provides an effectiv...
Controlling charge transfer at a molecular scale is critical for efficient light harvesting, energy ...
Molecular level control over macromolecules has been at the heart of human advancement, long before ...
This thesis aimed to synthesise new materials that can potentially be used in devices such as photov...
Over the years, chemists have become masters of covalent bond formation, demonstrated by the ability...
Bio-endogenous peptide molecules are ideal components for fabrication of biocompatible and environme...