Photoacoustic microscopy

Bray, R. C. (1981). Acoustic and photoacoustic microscopy. Ph.D. thesis, Ginzton Lab. 

Technical examination of objects coated with a protective covering derived from the sap of a shrubby tree produces information that can be used to determine the materials and methods of manufacture. This information sometimes indicates when and where the piece was made. This chapter is intended to present a brief review of the raw material urushi, and the history and study of its use. Analytical techniques have included atomic absorption spectroscopy, thin layer chromatography, differential thermal analysis, emission spectroscopy, x-ray radiography, and optical and scanning electron microscopy these methods and results are reviewed. In addition, new methods are reported, including the use of energy dispensive x-ray fluorescence, scanning photoacoustical microscopy, laser microprobe and nondestructive IR spectrophotometry. 

Finally we wish to introduce four new analytical methods for lacquer problems three are now used in the Detroit Institute of Arts lacquer project and the remaining method is undergoing development for lacquer use. These methods are energy dispersive x-ray fluorescence, laser microprobe, scanning photoacoustical microscopy, and nondestructive IR spectrophotometry. 

Zhang, H.F., et al. Functional photoacoustic microscopy for high-resolution and noninvasive in vivo imaging. Nature Biotechnology 24(7), 848-851 (2006)... 

Yao, J., et al. Label-free oxygen-metabolic photoacoustic microscopy in vivo. Journal of Biomedical Optics 16(7), 076003-11 (2011)... 

Infrared (IR) microscopy is similar to photoacoustic microscopy because it consists of a rastering laser beam and it measures the material s thermal properties. IR microscopy is, however, a transmission technique. An IR image of the side of the sample opposite the rastering laser is taken using an IR camera. Flaws in the body of the specimen interfere with the transmission of heat and are thus detected. IR microscopy is especially powerful for detecting undensified regions, inhomogeneities, and delaminations in laminar composites. 

Infrared microscopy, diffuse reflectance infrared Fourier transform (DRIFT) spectroscopy, and photoacoustic spectroscopy (PAS) techniques may be suitable for some types of sample but the use of... 

Specific spectroscopic techniques are used for the analysis of polymer surface (or more correctly of a thin layer at the surface of the polymer). They are applied for the study of surface coatings, surface oxidation, surface morphology, etc. These techniques are typically done by irradiating the polymer surface with photons, electrons or ions that penetrate only a thin layer of the polymer surface. This irradiation is followed by the absorption of a part of the incident radiation or by the emission of specific radiation, which is subsequently analyzed providing information about the polymer surface. One of the most common techniques used for the study of polymer surfaces is attenuated total reflectance in IR (ATR), also known as internal reflection spectroscopy. Other techniques include scanning electron microscopy, photoacoustic spectroscopy, electron spectroscopy for chemical analysis (ESCA), Auger electron spectroscopy, secondary ion mass spectroscopy (SIMS), etc. 

Vibrational spectroscopy represents two physically different, yet complementary spectroscopic techniques IR and Raman spectroscopy. Although both methods have been utilised for many years, recent advances in electronics, computer technologies and sampling made Fourier transform infrared (FTIR) and Raman (FT-Raman) one of the most powerful and versatile analytical tools. Enhanced sensitivity and surface selectivity allows non-invasive, no-vacuum molecular level analysis of surface and interfaces. Emphasis is placed on recent advances in attenuated total reflectance (ATR), step-scan photoacoustic (SS-PA), Fourier transform infrared (FTIR) and FT-Raman microscopies, as utilised to the analysis of polymeric surfaces and interfaces. A combination of these probes allows detection of molecular level changes responsible for macroscopic changes in three dimensions from various depths. 7 refs. 

Macromotecular Symposia Vol.119, July 1997, p.1-13 APPLICATIONS OF TWO-DIMENSIONAL CORRELATION SPECTROSCOPY IN DEPTHPROFILING PHOTOACOUSTIC SPECTROSCOPY, NEAR-INFRARED DYNAMIC RHEO-OPTICS, AND SPECTROSCOPIC IMAGING MICROSCOPY Noda I Story G M Dowrey A E Reeder R C ... 

Some new developments of two-dimensional spectroscopy are discussed. As a specific example, two-dimensional correlation analysis of a polymer laminate film using several different spectroscopic techniques is presented. The versatility of this technique was developed using depth-profiling photoacoustic spectroscopy, mid-and near-IR dynamic rheooptical developments, and spectroscopic imaging microscopy. Spatial and temporal variations of near-IR spectra are effectively analysed by the two-dimensional correlation technique. Step-scanning FTIR spectrometers provide an opportunity to obtain desired spectral information often difficult to obtain by the conventional rapid-scanning technique. 12 refs. 

The spatial distribution of the dye within the polymer provides information required to model the dyeing process. Confocal Raman microscopy (using an oil immersion objective) has emerged as a powerful technique to obtain accurate profiles of the dye distribution as a function of depth [148]. The technique is specifically suited to this apphcation because of the high Raman activity of azo-dyes used in the dyeing process and thus enables the dye to be detected at low concentrations. Depth profiling of polymers dyed from a supercritical solution have also been achieved with the use of photoacoustic (PA) spectroscopy [149]. 

Characterization of Lignin. Lignin is characterized in the solid state by Fourier transform infrared (ftir) spectroscopy, uv microscopy, interference microscopy, cross polarization/magic angle spinning nuclear magnetic resonance (cp/mas nmr) spectroscopy, photoacoustic spectroscopy, Raman spectroscopy. 

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