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Polymer/liquid crystal composite membranes: a new membrane system for crown-mediated ion transport
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S. Shinkai
Veröffentlicht/Copyright:
1. Januar 2009
Published Online: 2009-01-01
Published in Print: 1988-01-01
© 2013 Walter de Gruyter GmbH, Berlin/Boston
Artikel in diesem Heft
- Preface
- The productive scientific career of Charles J. Pedersen supplemented by an account of the discovery of 'crown ethers'
- Quantitative description of macrocycle-mediated cation separations in liquid membranes and on silica gel as a function of system parameters
- Lariat ethers: from cation complexation to supramolecular assemblies
- Conception and birth of new receptor chemistry from dibenzo-18-crown-6
- Synthesis of perfluoro crown ethers: a new class of cyclic fluorocarbons
- Role of preorganization in host-guest-chemistry
- Conformational and complexational characteristics of calixarenes
- Kinetics and mechanism of the hydrolysis of functional groups in the side-chain of macrocyclic Cu2+-complexes
- Redox properties of tetraaza-macrocycles of iron, ruthenium and osmium
- Use of macrocyclic polythiaether ligands in structure-reactivity studies of copper (II)/(I)
- 1,4,7-Triazacyclononane and N,N'N''-trimethyl-1,4,7-triazacyclononane - two versatile macrocycles for the synthesis of monomeric and oligomeric metal complexes
- Macrocyclic complexes of the platinum metals
- Large polyazacycloalkanes: ligational properties and anion coordination chemistry
- Artificial receptors for biologically active molecules
- Functionalization of crown ethers: an approach to the enzyme model for peptide synthesis
- Macrocyclic catechol-containing ligands
- Inclusion behaviour of azacyclophanes holding various hydrophobic cavities
- Metallomacrocycles: novel amphoteric macrocycles with metal ions and traditional Lewis bases as binding sites
- Axial ligation to low spin iron(II) macrocycles: inorganic and biomimetic applications
- Design features of ionophores for ion selective electrodes
- Polymer/liquid crystal composite membranes: a new membrane system for crown-mediated ion transport
- Artificial allosteric systems
Artikel in diesem Heft
- Preface
- The productive scientific career of Charles J. Pedersen supplemented by an account of the discovery of 'crown ethers'
- Quantitative description of macrocycle-mediated cation separations in liquid membranes and on silica gel as a function of system parameters
- Lariat ethers: from cation complexation to supramolecular assemblies
- Conception and birth of new receptor chemistry from dibenzo-18-crown-6
- Synthesis of perfluoro crown ethers: a new class of cyclic fluorocarbons
- Role of preorganization in host-guest-chemistry
- Conformational and complexational characteristics of calixarenes
- Kinetics and mechanism of the hydrolysis of functional groups in the side-chain of macrocyclic Cu2+-complexes
- Redox properties of tetraaza-macrocycles of iron, ruthenium and osmium
- Use of macrocyclic polythiaether ligands in structure-reactivity studies of copper (II)/(I)
- 1,4,7-Triazacyclononane and N,N'N''-trimethyl-1,4,7-triazacyclononane - two versatile macrocycles for the synthesis of monomeric and oligomeric metal complexes
- Macrocyclic complexes of the platinum metals
- Large polyazacycloalkanes: ligational properties and anion coordination chemistry
- Artificial receptors for biologically active molecules
- Functionalization of crown ethers: an approach to the enzyme model for peptide synthesis
- Macrocyclic catechol-containing ligands
- Inclusion behaviour of azacyclophanes holding various hydrophobic cavities
- Metallomacrocycles: novel amphoteric macrocycles with metal ions and traditional Lewis bases as binding sites
- Axial ligation to low spin iron(II) macrocycles: inorganic and biomimetic applications
- Design features of ionophores for ion selective electrodes
- Polymer/liquid crystal composite membranes: a new membrane system for crown-mediated ion transport
- Artificial allosteric systems
