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Items: 9

1.

Microwave-accelerated bioassay technique for rapid and quantitative detection of biological and environmental samples.

Mohammed M, Syed MF, Aslan K.

Biosens Bioelectron. 2016 Jan 15;75:420-6. doi: 10.1016/j.bios.2015.08.061.

PMID:
26356762
3.

Ultrafast and sensitive bioassay using split ring resonator structures and microwave heating.

Caglayan H, Cakmakyapan S, Addae SA, Pinard MA, Caliskan D, Aslan K, Ozbay E.

Appl Phys Lett. 2010 Aug 30;97(9). pii: 093701.

4.

Metal-Enhanced Fluorescence from Nanoparticulate Zinc Films.

Aslan K, Previte MJ, Zhang Y, Geddes CD.

J Phys Chem C Nanomater Interfaces. 2008 Nov 27;112(47):18368-18375.

5.

Metal-enhanced chemiluminescence: advanced chemiluminescence concepts for the 21st century.

Aslan K, Geddes CD.

Chem Soc Rev. 2009 Sep;38(9):2556-64. doi: 10.1039/b807498b. Review.

6.

Conversion of just-continuous metallic films to large particulate substrates for metal-enhanced fluorescence.

Aslan K, Malyn SN, Zhang Y, Geddes CD.

J Appl Phys. 2008 Apr 15;103(8):84307-843077.

7.

First Observation of Surface Plasmon-Coupled Chemiluminescence (SPCC).

Chowdhury MH, Malyn SN, Aslan K, Lakowicz JR, Geddes CD.

Chem Phys Lett. 2007 Feb 12;435(1-3):114-118.

8.

Metal-Enhanced S(2) Fluorescence from Azulene.

Zhang Y, Aslan K, Previte MJ, Geddes CD.

Chem Phys Lett. 2006 Dec 11;432(4-6):528-532.

9.

Multicolor directional surface plasmon-coupled chemiluminescence.

Chowdhury MH, Malyn SN, Aslan K, Lakowicz JR, Geddes CD.

J Phys Chem B. 2006 Nov 16;110(45):22644-51.

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