Quantum scale biomimicry of low dimensional growth: An unusual complex amorphous precursor route to TiO2 band confinement by shape adaptive biopolymer-like flexibility for energy applications
10.1038/s41598-019-55103-z
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Nature Research
2022
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sg-nus-scholar.10635-2127602024-04-02T07:46:40Z Quantum scale biomimicry of low dimensional growth: An unusual complex amorphous precursor route to TiO2 band confinement by shape adaptive biopolymer-like flexibility for energy applications Choi, D. Sonkaria, S. Fox, S.J. Poudel, S. Kim, S.-Y. Kang, S. Kim, S. Verma, C. Ahn, S.H. Lee, C.S. Khare, V. BIOLOGICAL SCIENCES 10.1038/s41598-019-55103-z Scientific Reports 9 1 18721 2022-01-03T03:47:29Z 2022-01-03T03:47:29Z 2019 Article Choi, D., Sonkaria, S., Fox, S.J., Poudel, S., Kim, S.-Y., Kang, S., Kim, S., Verma, C., Ahn, S.H., Lee, C.S., Khare, V. (2019). Quantum scale biomimicry of low dimensional growth: An unusual complex amorphous precursor route to TiO2 band confinement by shape adaptive biopolymer-like flexibility for energy applications. Scientific Reports 9 (1) : 18721. ScholarBank@NUS Repository. https://doi.org/10.1038/s41598-019-55103-z 20452322 https://scholarbank.nus.edu.sg/handle/10635/212760 Attribution 4.0 International https://creativecommons.org/licenses/by/4.0/ Nature Research Scopus OA2019 |
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10.1038/s41598-019-55103-z |
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BIOLOGICAL SCIENCES |
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BIOLOGICAL SCIENCES Choi, D. Sonkaria, S. Fox, S.J. Poudel, S. Kim, S.-Y. Kang, S. Kim, S. Verma, C. Ahn, S.H. Lee, C.S. Khare, V. |
| format |
Article |
| author |
Choi, D. Sonkaria, S. Fox, S.J. Poudel, S. Kim, S.-Y. Kang, S. Kim, S. Verma, C. Ahn, S.H. Lee, C.S. Khare, V. |
| spellingShingle |
Choi, D. Sonkaria, S. Fox, S.J. Poudel, S. Kim, S.-Y. Kang, S. Kim, S. Verma, C. Ahn, S.H. Lee, C.S. Khare, V. Quantum scale biomimicry of low dimensional growth: An unusual complex amorphous precursor route to TiO2 band confinement by shape adaptive biopolymer-like flexibility for energy applications |
| author_sort |
Choi, D. |
| title |
Quantum scale biomimicry of low dimensional growth: An unusual complex amorphous precursor route to TiO2 band confinement by shape adaptive biopolymer-like flexibility for energy applications |
| title_short |
Quantum scale biomimicry of low dimensional growth: An unusual complex amorphous precursor route to TiO2 band confinement by shape adaptive biopolymer-like flexibility for energy applications |
| title_full |
Quantum scale biomimicry of low dimensional growth: An unusual complex amorphous precursor route to TiO2 band confinement by shape adaptive biopolymer-like flexibility for energy applications |
| title_fullStr |
Quantum scale biomimicry of low dimensional growth: An unusual complex amorphous precursor route to TiO2 band confinement by shape adaptive biopolymer-like flexibility for energy applications |
| title_full_unstemmed |
Quantum scale biomimicry of low dimensional growth: An unusual complex amorphous precursor route to TiO2 band confinement by shape adaptive biopolymer-like flexibility for energy applications |
| title_sort |
quantum scale biomimicry of low dimensional growth: an unusual complex amorphous precursor route to tio2 band confinement by shape adaptive biopolymer-like flexibility for energy applications |
| publisher |
Nature Research |
| publishDate |
2022 |
| url |
https://scholarbank.nus.edu.sg/handle/10635/212760 |
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1795301707980210176 |