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Book Chapter
Huang XH, El-Sayed IH, EL-Sayed MA, Grobmyer SR. Applications of gold nanorods for cancer imaging and photothermal therapy. In: Methods in Molecular Biology. Vol. 624. Methods in Molecular Biology. ; 2010. p. 343-357. Available from:
Huang XH, El-Sayed IH, EL-Sayed MA. Fluorescent Quenching Gold Nanoparticles: Potential Biomedical Applications. In: Metal Enhanced Fluorescence. Metal Enhanced Fluorescence. ; 2010. p. 573-599. Available from:
Journal Article
Jain PK, El-Sayed IH, EL-Sayed MA. Au nanoparticles target cancer. Nano Today. 2007;2:18-29.
Jain PK, Lee KS, El-Sayed IH, EL-Sayed MA. Calculated absorption and scattering properties of gold nanoparticles of different size, shape, and composition: Applications in biological imaging and biomedicine. Journal of Physical Chemistry B. 2006;110:7238-7248.
Huang XH, El-Sayed IH, Qian W, El-Sayed MA. Cancer cell imaging and photothermal therapy in the near-infrared region by using gold nanorods. Journal of the American Chemical Society. 2006;128:2115-2120.
Huang XH, El-Sayed IH, Qian W, EL-Sayed MA. Cancer cells assemble and align gold nanorods conjugated to antibodies to produce highly enhanced, sharp, and polarized surface Raman spectra: A potential cancer diagnostic marker. Nano Letters. 2007;7:1591-1597.
Huang XH, Kang B, Qian W, Mackey MA, Chen PC, Oyelere AK, El-Sayed IH, EL-Sayed MA. Comparative study of photothermolysis of cancer cells with nuclear-targeted or cytoplasm-targeted gold nanospheres: continuous wave or pulsed lasers. Journal of Biomedical Optics. 2010;15.
Huang XH, Jain PK, El-Sayed IH, EL-Sayed MA. Determination of the minimum temperature required for selective photothermal destruction of cancer cells with the use of immunotargeted gold nanoparticles. Photochemistry and Photobiology. 2006;82:412-417.
El-Sayed IH, Huang XH, Macheret F, Humstoe JO, Kramer R, EL-Sayed MA. Effect of plasmonic gold nanoparticles on benign and malignant cellular autofluorescence: A novel probe for fluorescence based detection of cancer. Technology in Cancer Research & Treatment. 2007;6:403-412.
Yang D. Fourier-transform infrared spectroscopic comparison of cultured human fibroblast and fibrosarcoma cells Castro D, El-Sayed IH, EL-Sayed MA, Saxton R, Zhang N. Proceedings of SPIE [Internet]. 1995;2389(1):543. Available from:
Yang D, Castro D, El-Sayed IH, EL-Sayed MA, SAXTON RE, ZHANG NYI. A Fourier-transform infrared spectroscopic comparison of cultured human fibroblast and fibrosarcoma cells: a new method for detection of malignancies. Journal of clinical laser medicine & surgery. 1995;13(2):55-59.
Huang XH, El-Sayed IH, Yi XB, EL-Sayed MA. Gold nanoparticles: Catalyst for the oxidation of NADH to NAD(+). Journal of Photochemistry and Photobiology B-Biology. 2005;81:76-83.
Huang XH, Jain PK, El-Sayed IH, EL-Sayed MA. Gold nanoparticles: interesting optical properties and recent applications in cancer diagnostic and therapy. Nanomedicine. 2007;2:681-693.
Dickerson EB, Dreaden EC, Huang XH, El-Sayed IH, Chu HH, Pushpanketh S, McDonald JF, EL-Sayed MA. Gold nanorod assisted near-infrared plasmonic photothermal therapy (PPTT) of squamous cell carcinoma in mice. Cancer Letters. 2008;269:57-66.
Donlan RM, Piede JA, Heyes CD, Sanii LS, Murga R, Edmonds P, El-Sayed IH, EL-Sayed MA. Model system for growing and quantifying Streptococcus pneumoniae biofilms in situ and in real time. Applied and Environmental Microbiology. 2004;70:4980-4988.
El-Sayed IH, Huang X, EL-Sayed MA. Multicolorimetric plasmonic gold nanoparticles for 8 optical detection of oral squamous carcinoma. Oral Oncology. 2007;43(5):121-121.
Jain PK, Huang XH, El-Sayed IH, EL-Sayed MA. Noble Metals on the Nanoscale: Optical and Photothermal Properties and Some Applications in Imaging, Sensing, Biology, and Medicine. Accounts of Chemical Research. 2008;41:1578-1586.
Oyelere AK, Chen PC, Huang XH, El-Sayed IH, EL-Sayed MA. Peptide-conjugated gold nanorods for nuclear targeting. Bioconjugate Chemistry. 2007;18:1490-1497.
Huang XH, Jain PK, El-Sayed IH, El-Sayed MA. Plasmonic photothermal therapy (PPTT) using gold nanoparticles. Lasers in Medical Science. 2008;23:217-228.
Huang XH, Qian W, El-Sayed IH, EL-Sayed MA. The potential use of the enhanced nonlinear properties of gold nanospheres in photothermal cancer therapy. Lasers in Surgery and Medicine. 2007;39:747-753.
Jain PK, Huang XH, El-Sayed IH, EL-Sayed MA. Review of some interesting surface plasmon resonance-enhanced properties of noble metal nanoparticles and their applications to biosystems. Plasmonics [Internet]. 2007;2(3):107-118. Available from:
El-Sayed IH, Huang XH, EL-Sayed MA. Selective laser photo-thermal therapy of epithelial carcinoma using anti-EGFR antibody conjugated gold nanoparticles. Cancer Letters. 2006;239:129-135.
El-Sayed IH, Huang XH, El-Sayed MA. Surface plasmon resonance scattering and absorption of anti-EGFR antibody conjugated gold nanoparticles in cancer diagnostics: Applications in oral cancer. Nano Letters. 2005;5:829-834.