http://scholar.google.com/citations?hl=en&user=95SvbM8AAAAJ
1.
Owuor, Peter Samora; Inthong, Suchittra; Sajadi, Seyed Mohammad; Intawin, Pratthana; Chipara, Alin C.; Woellner, Cristiano F.; Sayed, Farheen N.; Tsang, Harvey H.; Stender, Anthony; Vajtai, Robert; Pengpat, Kamonpan; Eitssayeam, Sukum; Galvao, Douglas S.; Lou, Jun; Tiwary, Chandra Sekhar; Ajayan, Pulickel M.
Elastic and ‘transparent bone’ as an electrochemical separator Journal Article
Em: Materials Chemistry Today, vol. 12, pp. 132-138, 2019.
@article{Owuor2019,
title = {Elastic and ‘transparent bone’ as an electrochemical separator},
author = {Peter Samora Owuor and Suchittra Inthong and Seyed Mohammad Sajadi and Pratthana Intawin and Alin C. Chipara and Cristiano F. Woellner and Farheen N. Sayed and Harvey H. Tsang and Anthony Stender and Robert Vajtai and Kamonpan Pengpat and Sukum Eitssayeam and Douglas S. Galvao and Jun Lou and Chandra Sekhar Tiwary and Pulickel M. Ajayan},
url = {https://reader.elsevier.com/reader/sd/pii/S246851941830291X?token=B3C1F35B7DCEA8636EFB32B8D1D71EEC9852E58D0729A622DAFDF86C3EE65DF2A33E77CE7534A5D66D3854C396F69D1A},
doi = {10.1016/j.mtchem.2018.12.009},
year = {2019},
date = {2019-01-05},
journal = {Materials Chemistry Today},
volume = {12},
pages = {132-138},
abstract = {Organic matrix of bone mainly composed of collagen matrix serve as a crucial component for remarkable toughness and strength in bones. The porous collagen matrix can also serve as efficient template for various applications such as nanoparticles synthetic, catalysis or catalysis supports, electrochemical separator, filtration membrane and tissue engineering. However, fabricating collagen matrix from bones without degrading its morphological structure still remain a challenge. Here we present evidence of how ceramic crystals from a bone can be removed to fabricate a complete ‘transparent bone’ structure with improved porous and elasticity. We show that demineralization or selective etching using dilute acid (citric) can remove ceramics mineral nanoparticles without degrading the collagen matrix. The transparent bone collagen matrix is investigated as the separator in electrochemical supercapacitor with aqueous electrolyte where it shows better performance compared to conventional separators.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Organic matrix of bone mainly composed of collagen matrix serve as a crucial component for remarkable toughness and strength in bones. The porous collagen matrix can also serve as efficient template for various applications such as nanoparticles synthetic, catalysis or catalysis supports, electrochemical separator, filtration membrane and tissue engineering. However, fabricating collagen matrix from bones without degrading its morphological structure still remain a challenge. Here we present evidence of how ceramic crystals from a bone can be removed to fabricate a complete ‘transparent bone’ structure with improved porous and elasticity. We show that demineralization or selective etching using dilute acid (citric) can remove ceramics mineral nanoparticles without degrading the collagen matrix. The transparent bone collagen matrix is investigated as the separator in electrochemical supercapacitor with aqueous electrolyte where it shows better performance compared to conventional separators.
2019
1.
Owuor, Peter Samora; Inthong, Suchittra; Sajadi, Seyed Mohammad; Intawin, Pratthana; Chipara, Alin C.; Woellner, Cristiano F.; Sayed, Farheen N.; Tsang, Harvey H.; Stender, Anthony; Vajtai, Robert; Pengpat, Kamonpan; Eitssayeam, Sukum; Galvao, Douglas S.; Lou, Jun; Tiwary, Chandra Sekhar; Ajayan, Pulickel M.
Elastic and ‘transparent bone’ as an electrochemical separator Journal Article
Em: Materials Chemistry Today, vol. 12, pp. 132-138, 2019.
Resumo | Links | BibTeX | Tags: biomaterials, Bone, Characterization, electrodes, Modeling, Molecular Dynamics
@article{Owuor2019,
title = {Elastic and ‘transparent bone’ as an electrochemical separator},
author = {Peter Samora Owuor and Suchittra Inthong and Seyed Mohammad Sajadi and Pratthana Intawin and Alin C. Chipara and Cristiano F. Woellner and Farheen N. Sayed and Harvey H. Tsang and Anthony Stender and Robert Vajtai and Kamonpan Pengpat and Sukum Eitssayeam and Douglas S. Galvao and Jun Lou and Chandra Sekhar Tiwary and Pulickel M. Ajayan},
url = {https://reader.elsevier.com/reader/sd/pii/S246851941830291X?token=B3C1F35B7DCEA8636EFB32B8D1D71EEC9852E58D0729A622DAFDF86C3EE65DF2A33E77CE7534A5D66D3854C396F69D1A},
doi = {10.1016/j.mtchem.2018.12.009},
year = {2019},
date = {2019-01-05},
journal = {Materials Chemistry Today},
volume = {12},
pages = {132-138},
abstract = {Organic matrix of bone mainly composed of collagen matrix serve as a crucial component for remarkable toughness and strength in bones. The porous collagen matrix can also serve as efficient template for various applications such as nanoparticles synthetic, catalysis or catalysis supports, electrochemical separator, filtration membrane and tissue engineering. However, fabricating collagen matrix from bones without degrading its morphological structure still remain a challenge. Here we present evidence of how ceramic crystals from a bone can be removed to fabricate a complete ‘transparent bone’ structure with improved porous and elasticity. We show that demineralization or selective etching using dilute acid (citric) can remove ceramics mineral nanoparticles without degrading the collagen matrix. The transparent bone collagen matrix is investigated as the separator in electrochemical supercapacitor with aqueous electrolyte where it shows better performance compared to conventional separators.},
keywords = {biomaterials, Bone, Characterization, electrodes, Modeling, Molecular Dynamics},
pubstate = {published},
tppubtype = {article}
}
Organic matrix of bone mainly composed of collagen matrix serve as a crucial component for remarkable toughness and strength in bones. The porous collagen matrix can also serve as efficient template for various applications such as nanoparticles synthetic, catalysis or catalysis supports, electrochemical separator, filtration membrane and tissue engineering. However, fabricating collagen matrix from bones without degrading its morphological structure still remain a challenge. Here we present evidence of how ceramic crystals from a bone can be removed to fabricate a complete ‘transparent bone’ structure with improved porous and elasticity. We show that demineralization or selective etching using dilute acid (citric) can remove ceramics mineral nanoparticles without degrading the collagen matrix. The transparent bone collagen matrix is investigated as the separator in electrochemical supercapacitor with aqueous electrolyte where it shows better performance compared to conventional separators.
