Amino acid adsorption effects on nanotube electronics
We discuss effects of the adsorption of glycine, histidine, phenylalanine, and cysteine on the electronic structure of the metallic (3,3) carbon nanotube through calculations within density functional theory. Results show good nanotube electronic structure stability in the presence of the biomolecul...
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oai:animorepository.dlsu.edu.ph:faculty_research-53292022-01-24T05:32:36Z Amino acid adsorption effects on nanotube electronics Roman, Tanglaw Diño, Wilson A. Nakanishi, Hiroshi Kasai, Hideaki We discuss effects of the adsorption of glycine, histidine, phenylalanine, and cysteine on the electronic structure of the metallic (3,3) carbon nanotube through calculations within density functional theory. Results show good nanotube electronic structure stability in the presence of the biomolecules. Molecule-nanotube band mixing and band degeneracy lifting are observed, though the limited extents to which these effects are manifested on the system electronics affirm the weak, noncovalent connection at their interface. 2006-11-16T08:00:00Z text https://animorepository.dlsu.edu.ph/faculty_research/4562 info:doi/10.3131/jvsj.49.440 Faculty Research Work Animo Repository Carbon nanotubes—Absorption and adsorption Electronic structure Physics |
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Carbon nanotubes—Absorption and adsorption Electronic structure Physics |
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Carbon nanotubes—Absorption and adsorption Electronic structure Physics Roman, Tanglaw Diño, Wilson A. Nakanishi, Hiroshi Kasai, Hideaki Amino acid adsorption effects on nanotube electronics |
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We discuss effects of the adsorption of glycine, histidine, phenylalanine, and cysteine on the electronic structure of the metallic (3,3) carbon nanotube through calculations within density functional theory. Results show good nanotube electronic structure stability in the presence of the biomolecules. Molecule-nanotube band mixing and band degeneracy lifting are observed, though the limited extents to which these effects are manifested on the system electronics affirm the weak, noncovalent connection at their interface. |
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text |
| author |
Roman, Tanglaw Diño, Wilson A. Nakanishi, Hiroshi Kasai, Hideaki |
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Roman, Tanglaw Diño, Wilson A. Nakanishi, Hiroshi Kasai, Hideaki |
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Roman, Tanglaw |
| title |
Amino acid adsorption effects on nanotube electronics |
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Amino acid adsorption effects on nanotube electronics |
| title_full |
Amino acid adsorption effects on nanotube electronics |
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Amino acid adsorption effects on nanotube electronics |
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Amino acid adsorption effects on nanotube electronics |
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amino acid adsorption effects on nanotube electronics |
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Animo Repository |
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2006 |
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https://animorepository.dlsu.edu.ph/faculty_research/4562 |
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