Abstract: This disclosure provides systems, methods, and apparatus related to infrared spectroscopy. In one aspect, a device includes a first assembly, a porous membrane, and a second assembly. The first assembly defines a fluid distributor. The porous membrane overlies the fluid distributor and forms a surface of the fluid distributor. The second assembly is disposed on the first assembly. The second assembly defines a plurality of capillary arrays surrounding a window in the second assembly that exposes the porous membrane. Capillaries of each of the capillary arrays have openings on edges of the window of the second assembly and are operable to direct moisture across a surface of the porous membrane.

Abstract: Disclosed herein are systems, methods, systems and devices for measurement and visualization of chemical dynamics in living cells or tissues for diagnostic pathology. Devices can be open- or closed-channel microfluidic membrane devices for long-term IR spectroscopy of live adherent cells and ultimately for rapidly identifying time-dependent spectral features indicative of chemical abnormality in individual cells.

Abstract: Plasmonic gratings, along with methods of creating devices using width-graded plasmonic gratings are described. Plasmonic gratings may be transmission-type or closed-ended plasmonic gratings, and may be disposed on detectors to enhance the spectral range detection of the detectors or in further device architectures.

Abstract: This disclosure provides systems, methods, and apparatus related to laser ablation spectrometry systems. In one aspect, a system comprises a microscope, a laser, a continuous flow probe, and a gas confinement device. The laser is positioned to emit light through an objective lens of the microscope. The continuous flow probe is coupled to a spectrometer. An end of the continuous flow probe is positioned proximate a sample and between the sample and the objective lens. The gas confinement device defines a gas inlet, a chamber, a platform, a wall surrounding the platform, a plurality of vents, and a plurality of channels. Each of the plurality of vents is positioned to direct a gas substantially parallel to the platform, and each of the plurality of vents is defined in the wall. The plurality of channels is operable to provide fluid communication between the chamber and the plurality of vents.

Abstract: Plasmonic gratings, along with methods of creating devices using width-graded plasmonic gratings are described. Plasmonic gratings may be transmission-type or closed-ended plasmonic gratings, and may be disposed on detectors to enhance the spectral range detection of the detectors or in further device architectures.

Abstract: This disclosure provides systems, methods, and apparatus related to laser ablation spectrometry systems. In one aspect, a system comprises a microscope, a laser, a continuous flow probe, and a gas confinement device. The laser is positioned to emit light through an objective lens of the microscope. The continuous flow probe is coupled to a spectrometer. An end of the continuous flow probe is positioned proximate a sample and between the sample and the objective lens. The gas confinement device defines a gas inlet, a chamber, a platform, a wall surrounding the platform, a plurality of vents, and a plurality of channels. Each of the plurality of vents is positioned to direct a gas substantially parallel to the platform, and each of the plurality of vents is defined in the wall. The plurality of channels is operable to provide fluid communication between the chamber and the plurality of vents.

Abstract: Disclosed herein are systems, methods, systems and devices for measurement and visualization of chemical dynamics in living cells or tissues for diagnostic pathology. Devices can be open- or closed-channel microfluidic membrane devices for long-term IR spectroscopy of live adherent cells and ultimately for rapidly identifying time-dependent spectral features indicative of chemical abnormality in individual cells.

Abstract: A new experimental setup for spatially resolved ambient infrared laser ablation mass spectrometry (AIRLAB-MS) that uses an infrared microscope with an infinity-corrected reflective objective and a continuous flow solvent probe coupled to a Fourier transform ion cyclotron resonance mass spectrometer is described. The efficiency of material transfer from the sample to the electrospray ionization emitter was determined using glycerol/methanol droplets containing 1 mM nicotine and is ˜50%. This transfer efficiency is significantly higher than values reported for similar techniques.

Abstract: A new experimental setup for spatially resolved ambient infrared laser ablation mass spectrometry (AIRLAB-MS) that uses an infrared microscope with an infinity-corrected reflective objective and a continuous flow solvent probe coupled to a Fourier transform ion cyclotron resonance mass spectrometer is described. The efficiency of material transfer from the sample to the electrospray ionization emitter was determined using glycerol/methanol droplets containing 1 mM nicotine and is ˜50%. This transfer efficiency is significantly higher than values reported for similar techniques.

Abstract: A Multiplex Chemotyping Microarray (MCM) system and methods are herein described. The MCM system and methods enable rapid chemical analyses of heterogeneous mixtures, by combining high-throughput micro-contact printing technology with high-fidelity (mass) vibrational spectroscopy. The MCM enables an error-free deposition and detection of multiple chemicals in a heterogeneous liquid sample at a throughput of more than two orders of magnitude beyond existing methods.

Abstract: A method of characterizing conditions in a tissue, by (a) providing a catheter that has a light source that emits light in selected wavenumbers within the range of mid-IR spectrum; (b) directing the light from the catheter to an area of tissue at a location inside a blood vessel of a subject; (c) collecting light reflected from the location and generating a reflectance spectra; and (d) comparing the reflectance spectra to a reference spectra of normal tissue, whereby a location having an increased number of absorbance peaks at said selected wavenumbers indicates a tissue inside the blood vessel containing a physiological marker for atherosclerosis.

Abstract: Nano-microfluidic devices and uses thereof are described. In particular, systems and methods are described for continuous real-time monitoring and analysis of targets in thin liquid films; such targets can include living cells and tissues. In some embodiments, nano-microfluidic devices can be utilized to observe living cells in layers of thin liquid media by IR-spectroscopy.

Abstract: The present invention relates to measurements of contaminants in the soil and other organic or environmental materials, using a biologically relevant chemical analysis that will measure the amount of contaminants in a given sample that may be expected to be absorbed by a human being ingesting the contaminated soil. According to the present invention, environmental samples to be tested are added to a pre-prepared physiological composition of bile salts and lipids. They are thoroughly mixed and then the resulting mixture is separated e.g. by centrifugation. The supernatant is then analyzed for the presence of contaminants and these concentrations are compared to the level of contaminants in the untreated samples. It is important that the bile salts and lipids be thoroughly pre-mixed to form micelles.