Self-assembled one dimensional functionalized metal–organic nanotubes (MONTs) for proton conduction

Two self-assembled isostructural functionalized metal-organic nanotubes have been synthesized using 5-triazole isophthalic acid (5-TIA) with In(III) and Cd(II). In- and Cd-5TIA possess one-dimensional (1D) nanotubular architecture and show proton conductivity along regular 1D channels, measured as 5...

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Published in	Chemical communications (Cambridge, England) Vol. 48; no. 44; pp. 5464 - 5466
Main Authors	Panda, Tamas, Kundu, Tanay, Banerjee, Rahul
Format	Journal Article
Language	English
Published	England 04.06.2012
Subjects	Architecture Cadmium Cadmium - chemistry Channels chemical communication chemical reactions Crystallography, X-Ray Electric Conductivity indium Indium - chemistry Models, Molecular Nanocomposites Nanomaterials Nanostructure Nanotubes Nanotubes - chemistry Organometallic Compounds - chemistry Phthalic Acids - chemistry Proton conduction Protons Surface Properties triazoles
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Abstract	Two self-assembled isostructural functionalized metal-organic nanotubes have been synthesized using 5-triazole isophthalic acid (5-TIA) with In(III) and Cd(II). In- and Cd-5TIA possess one-dimensional (1D) nanotubular architecture and show proton conductivity along regular 1D channels, measured as 5.35 × 10(-5) and 3.61 × 10(-3) S cm(-1) respectively.
AbstractList	Two self-assembled isostructural functionalized metal-organic nanotubes have been synthesized using 5-triazole isophthalic acid (5-TIA) with In(III) and Cd(II). In- and Cd-5TIA possess one-dimensional (1D) nanotubular architecture and show proton conductivity along regular 1D channels, measured as 5.35 × 10(-5) and 3.61 × 10(-3) S cm(-1) respectively. Two self-assembled isostructural functionalized metal-organic nanotubes have been synthesized using 5-triazole isophthalic acid (5-TIA) with In(III) and Cd(II). In- and Cd-5TIA possess one-dimensional (1D) nanotubular architecture and show proton conductivity along regular 1D channels, measured as 5.35 × 10(-5) and 3.61 × 10(-3) S cm(-1) respectively.Two self-assembled isostructural functionalized metal-organic nanotubes have been synthesized using 5-triazole isophthalic acid (5-TIA) with In(III) and Cd(II). In- and Cd-5TIA possess one-dimensional (1D) nanotubular architecture and show proton conductivity along regular 1D channels, measured as 5.35 × 10(-5) and 3.61 × 10(-3) S cm(-1) respectively. Two self-assembled isostructural functionalized metal-organic nanotubes have been synthesized using 5-triazole isophthalic acid (5-TIA) with In(iii) and Cd(ii). In- and Cd-5TIA possess one-dimensional (1D) nanotubular architecture and show proton conductivity along regular 1D channels, measured as 5.35 10 super(-5) and 3.61 10 super(-3) S cm super(-1) respectively. Two self-assembled isostructural functionalized metal-organic nanotubes have been synthesized using 5-triazole isophthalic acid (5-TIA) with In(iii) and Cd(ii). In- and Cd-5TIA possess one-dimensional (1D) nanotubular architecture and show proton conductivity along regular 1D channels, measured as 5.35 × 10⁻⁵ and 3.61 × 10⁻³ S cm⁻¹ respectively.
Author	Banerjee, Rahul Panda, Tamas Kundu, Tanay
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BackLink	https://www.ncbi.nlm.nih.gov/pubmed/22538292$$D View this record in MEDLINE/PubMed
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Snippet	Two self-assembled isostructural functionalized metal-organic nanotubes have been synthesized using 5-triazole isophthalic acid (5-TIA) with In(III) and... Two self-assembled isostructural functionalized metal-organic nanotubes have been synthesized using 5-triazole isophthalic acid (5-TIA) with In(iii) and...
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SubjectTerms	Architecture Cadmium Cadmium - chemistry Channels chemical communication chemical reactions Crystallography, X-Ray Electric Conductivity indium Indium - chemistry Models, Molecular Nanocomposites Nanomaterials Nanostructure Nanotubes Nanotubes - chemistry Organometallic Compounds - chemistry Phthalic Acids - chemistry Proton conduction Protons Surface Properties triazoles
Title	Self-assembled one dimensional functionalized metal–organic nanotubes (MONTs) for proton conduction
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