Add to ORKGIon-pair recognition is a new field of research emerging from cation and anion coordination chemistry. Specific types of heteroditopic receptor designs for ion pairs and the complexity of ion-pair binding are discussed to illustrate key concepts such as cooperativity. The importance of this area of research is reflected by the wide variety of potential applications of ion-pair receptors, including applications as membrane transport and salt solubilization agents and sensors
Ions play pivotal roles both biologically and environmentally. The effects felt from the impact of i...
Anion recognition plays a critical role in a range of biological processes, and a variety of recepto...
A new heteroditopic calix[4]diquinone triazole containing receptor capable of recognising both catio...
Ion-pair recognition is a new field of research emerging from cation and anion coordination chemistr...
Ion-pair recognition has emerged from cation and anion recognition and become a diverse and active f...
Ion-pair recognition has emerged from cation and anion recognition and become a diverse and active f...
The development of heteroditopic receptor systems that can simultaneously bind cationic and anionic ...
The development of heteroditopic receptor systems that can simultaneously bind cationic and anionic ...
A new family of heteroditopic calix[4]diquinone receptors capable of the cooperative recognition of ...
A novel heteroditopic receptor (5) based on a rigid calix[4]arene cavity bearing at the upper rim fo...
A new heteroditopic receptor for alkali metal halides has been designed and synthesized. It is compr...
A new heteroditopic receptor for alkali metal halides has been designed and synthesized. It is compr...
A new heteroditopic receptor for alkali metal halides has been designed and synthesized. It is compr...
A new heteroditopic receptor for alkali metal halides has been designed and synthesized. It is compr...
After a general introduction, the chapter deals with structural key-motifs in ion-pair receptors, io...
Ions play pivotal roles both biologically and environmentally. The effects felt from the impact of i...
Anion recognition plays a critical role in a range of biological processes, and a variety of recepto...
A new heteroditopic calix[4]diquinone triazole containing receptor capable of recognising both catio...
Ion-pair recognition is a new field of research emerging from cation and anion coordination chemistr...
Ion-pair recognition has emerged from cation and anion recognition and become a diverse and active f...
Ion-pair recognition has emerged from cation and anion recognition and become a diverse and active f...
The development of heteroditopic receptor systems that can simultaneously bind cationic and anionic ...
The development of heteroditopic receptor systems that can simultaneously bind cationic and anionic ...
A new family of heteroditopic calix[4]diquinone receptors capable of the cooperative recognition of ...
A novel heteroditopic receptor (5) based on a rigid calix[4]arene cavity bearing at the upper rim fo...
A new heteroditopic receptor for alkali metal halides has been designed and synthesized. It is compr...
A new heteroditopic receptor for alkali metal halides has been designed and synthesized. It is compr...
A new heteroditopic receptor for alkali metal halides has been designed and synthesized. It is compr...
A new heteroditopic receptor for alkali metal halides has been designed and synthesized. It is compr...
After a general introduction, the chapter deals with structural key-motifs in ion-pair receptors, io...
Ions play pivotal roles both biologically and environmentally. The effects felt from the impact of i...
Anion recognition plays a critical role in a range of biological processes, and a variety of recepto...
A new heteroditopic calix[4]diquinone triazole containing receptor capable of recognising both catio...