Journal article
Jenise B. Chen, Hanie Yousefi, Carine R. Nemr, Surath Gomis, R. Atwal, Mahmoud Labib, E. Sargent, S. Kelley
Advanced Functional Materials, 2019
Advanced Functional Materials, 2019
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DOI
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APA
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Chen, J. B., Yousefi, H., Nemr, C. R., Gomis, S., Atwal, R., Labib, M., … Kelley, S. (2019). Nanostructured Architectures for Biomolecular Detection inside and outside the Cell. Advanced Functional Materials.
Chicago/Turabian
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Chen, Jenise B., Hanie Yousefi, Carine R. Nemr, Surath Gomis, R. Atwal, Mahmoud Labib, E. Sargent, and S. Kelley. “Nanostructured Architectures for Biomolecular Detection inside and Outside the Cell.” Advanced Functional Materials (2019).
MLA
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Chen, Jenise B., et al. “Nanostructured Architectures for Biomolecular Detection inside and Outside the Cell.” Advanced Functional Materials, 2019.
BibTeX Click to copy
@article{jenise2019a,
title = {Nanostructured Architectures for Biomolecular Detection inside and outside the Cell},
year = {2019},
journal = {Advanced Functional Materials},
author = {Chen, Jenise B. and Yousefi, Hanie and Nemr, Carine R. and Gomis, Surath and Atwal, R. and Labib, Mahmoud and Sargent, E. and Kelley, S.}
}
Abstract
Nanostructured materials can now be engineered with great precision and complexity as a result of advances in design and fabrication, and offer distinct advantages in many biosensing and biomedical applications. The materials most widely used in this field are semiconductors and noble metals. Each offers multiple length scales of nanostructuring that program their physicochemical properties for different biosensing applications. Here, nanostructured materials and their applications are reviewed together with semiconductors and noble metals, as well as hybrid materials that unite these two classes—all with the goal of linking performance characteristics to applications in biomedicine.
