Add to ORKGTransporting protons is essential in several biological processes as well as in renewable energy devices, such as fuel cells. Although biological systems exhibit precise supramolecular organization of chemical functionalities on the nanoscale to effect highly efficient proton conduction, to achieve similar organization in artificial systems remains a daunting challenge. Here, we are concerned with transporting protons on a micron scale under anhydrous conditions, that is proton transfer unassisted by any solvent, especially water. We report that proton-conducting systems derived from facially amphiphilic polymers that exhibit organized supramolecular assemblies show a dramatic enhancement in anhydrous conductivity relative to analogous mate...
© 2016 Elsevier B.V.. Membranes with a high but remarkably humidity-independent proton conductivity ...
Anhydrous proton-conducting polymers usually consist of a more or less inert polymer matrix that is ...
We present a new approach of morphological transformation for effective proton transport within iono...
Combed to perfection: Fully aromatic comb-shaped copolymers based on a poly(arylene ether sulfone) (...
Combed to perfection: Fully aromatic comb-shaped copolymers based on a poly(arylene ether sulfone) (...
Proton translocation enables important processes in nature and man-made technologies. However, contr...
The process of molecular self-assembly has attracted tremendous attention due to its novel structura...
The process of molecular self-assembly has attracted tremendous attention due to its novel structura...
Studies of proton transport in novel materials are important to enable a large array of electrochemi...
Proton transport has been recognized as an essential process in many biological systems, as well as ...
Over the past two decades, proton transport has been extensively studied because of the many applica...
Proton transport has been recognized as an essential process in many biological systems, as well as ...
Studies of proton transport in novel materials are important to enable a large array of electrochemi...
This dissertation focuses on the fundamental understanding of the proton transfer process and transl...
This dissertation focuses on the fundamental understanding of the proton transfer process and transl...
© 2016 Elsevier B.V.. Membranes with a high but remarkably humidity-independent proton conductivity ...
Anhydrous proton-conducting polymers usually consist of a more or less inert polymer matrix that is ...
We present a new approach of morphological transformation for effective proton transport within iono...
Combed to perfection: Fully aromatic comb-shaped copolymers based on a poly(arylene ether sulfone) (...
Combed to perfection: Fully aromatic comb-shaped copolymers based on a poly(arylene ether sulfone) (...
Proton translocation enables important processes in nature and man-made technologies. However, contr...
The process of molecular self-assembly has attracted tremendous attention due to its novel structura...
The process of molecular self-assembly has attracted tremendous attention due to its novel structura...
Studies of proton transport in novel materials are important to enable a large array of electrochemi...
Proton transport has been recognized as an essential process in many biological systems, as well as ...
Over the past two decades, proton transport has been extensively studied because of the many applica...
Proton transport has been recognized as an essential process in many biological systems, as well as ...
Studies of proton transport in novel materials are important to enable a large array of electrochemi...
This dissertation focuses on the fundamental understanding of the proton transfer process and transl...
This dissertation focuses on the fundamental understanding of the proton transfer process and transl...
© 2016 Elsevier B.V.. Membranes with a high but remarkably humidity-independent proton conductivity ...
Anhydrous proton-conducting polymers usually consist of a more or less inert polymer matrix that is ...
We present a new approach of morphological transformation for effective proton transport within iono...