Physics:Gold nanocage
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Gold Nanocages are hollow, porous gold nanoparticles ranging in size from 10 to over 150 nm. They are created by reacting silver nanoparticles with chloroauric acid (HAuCl4) in boiling water.[1] Whereas gold nanoparticles absorb light in the visible spectrum of light (at about 550 nm), gold nanocages absorb light in the near-infrared,[2] where biological tissues absorb the least light. Because they are also biocompatible, gold nanocages are promising as a contrast agent for optical coherence tomography. Gold nanocages also absorb light and heat up (Photothermal effect), killing surrounding cancer cells. Nanocages have been functionalized with cancer-specific antibodies.[3][4]
See also
- Colloidal gold
- Gold nanorods
References
- ↑ Skrabalak, S. E.; Chen, J.; Sun, Y.; Lu, X.; Au, L.; Cobley, C. M.; Xia, Y. (2008). "Gold nanocages: Synthesis, properties, and applications". Accounts of Chemical Research 41 (12): 1587–95. doi:10.1021/ar800018v. PMID 18570442.
- ↑ Yavuz, Mustafa S.; Cheng, Yiyun; Chen, Jingyi; Cobley, Claire M.; Zhang, Qiang; Rycenga, Matthew; Xie, Jingwei; Kim, Chulhong et al. (2009). "Gold nanocages covered by smart polymers for controlled release with near-infrared light". Nature Materials 8 (12): 935–939. doi:10.1038/nmat2564. PMID 19881498. Bibcode: 2009NatMa...8..935Y.
- ↑ Jingyi Chen; Fusayo Saeki; Benjamin J. Wiley; Hu Cang; Michael J. Cobb; Zhi-Yuan Li; Leslie Au; Hui Zhang et al. (2005). "Gold Nanocages: Bioconjugation and Their Potential Use as Optical Imaging Contrast Agents". Nano Lett. 5 (3): 473–7. doi:10.1021/nl047950t. PMID 15755097. Bibcode: 2005NanoL...5..473C.
- ↑ Au, L.; Zheng, D.; Zhou, F.; Li, Z. Y.; Li, X.; Xia, Y. (2008). "A quantitative study on the photothermal effect of immuno gold nanocages targeted to breast cancer cells". ACS Nano 2 (8): 1645–52. doi:10.1021/nn800370j. PMID 19206368.
Original source: https://en.wikipedia.org/wiki/Gold nanocage.
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