Issue 6, 2014

Extension of the broadband single-mode integrated optical waveguide technique to the ultraviolet spectral region and its applications

Abstract

We report here the fabrication, characterization, and application of a single-mode integrated optical waveguide (IOW) spectrometer capable of acquiring optical absorbance spectra of surface-immobilized molecules in the visible and ultraviolet spectral region down to 315 nm. The UV-extension of the single-mode IOW technique to shorter wavelengths was made possible by our development of a low-loss single-mode dielectric waveguide in the UV region based on an alumina film grown by atomic layer deposition (ALD) over a high quality fused silica substrate, and by our design/fabrication of a broadband waveguide coupler formed by an integrated diffraction grating combined with a highly anamorphic optical beam of large numerical aperture. As an application of the developed technology, we report here the surface adsorption process of bacteriochlorophyll a on different interfaces using its Soret absorption band centred at 370 nm. The effects of different chemical compositions at the solid–liquid interface on the adsorption and spectral properties of bacteriochlorophyll a were determined from the polarized UV-Vis IOW spectra acquired with the developed instrumentation. The spectral extension of the single-mode IOW technique into the ultraviolet region is an important advance as it enables extremely sensitive studies in key characteristics of surface molecular processes (e.g., protein unfolding and solvation of aromatic amino-acid groups under surface binding) whose spectral features are mainly located at wavelengths below the visible spectrum.

Graphical abstract: Extension of the broadband single-mode integrated optical waveguide technique to the ultraviolet spectral region and its applications

Article information

Article type
Paper
Submitted
27 Nov 2013
Accepted
11 Dec 2013
First published
16 Dec 2013

Analyst, 2014,139, 1396-1402

Author version available

Extension of the broadband single-mode integrated optical waveguide technique to the ultraviolet spectral region and its applications

R. S. Wiederkehr and S. B. Mendes, Analyst, 2014, 139, 1396 DOI: 10.1039/C3AN02201C

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