Embodiments herein relate to optoelectronic interfaces for multimode analyte sensors for use with implantable medical devices. In an embodiment, an implantable medical device is included. The implantable medical device can include a first chemical sensor including an optical excitation assembly comprising a first visible spectrum emitter, a second visible spectrum emitter, and at least one of a near-infrared (NIR) emitter and an ultraviolet emitter. The first chemical sensor can also include an optical detection assembly including a colorimetric response detector, and a photoluminescent response detector. The first chemical sensor can also include a multimode sensing element including a colorimetric response element specific for a first chemical analyte, a photoluminescent response element specific for a second chemical analyte. Other embodiments are also included herein.

A sensor can include a nanostructure in a housing configured to contact a sample.

A brain computer interface system includes a retainer and cap assembly for transmitting light to a user's head region and transmitting optical signals from the user's head region to a detector subsystem. The retainer is configured to secure the cap assembly to a head region of a user. The cap assembly includes an array of ports that retain an array of ferrules. A first ferrule in the array of ferrules can include a channel that extends at least partially through the body of the ferrule. The channel retains a fiber optic cable such that the fiber optic cable is in communication with a head region of a user during a mode of operation. The cap includes an elastic portion such that in a mode of operation, the cap and array of ferrules are biased towards the head region of a user.

The present disclosure discloses an optochemical sensor for determining a measurand correlating with a concentration of an analyte in a measuring fluid, comprising: a housing having an immersion region configured for immersing in the measuring fluid; a removable cap having a sensor spot, the removable cap removably arranged at the immersion region of the housing, wherein the sensor spot is disposed on a circumferential face; a radiation source disposed in the housing for radiating excitation radiation into the removable cap, wherein a deflection module is disposed in the removable cap as to deflect excitation radiation radiated into the removable cap; a radiation receiver disposed in the housing for receiving received radiation emitted by the sensor spot; and a sensor circuit disposed in the housing and configured to control the radiation source, receive signals of the radiation receiver, and generate output signals based on the signals of the radiation receiver.

The subject invention provides materials and methods for single-step detection of small molecules, e.g., natural and synthetic cannabinoids, in a sample. The subjection invention provides nucleic acids materials, e.g., aptamers (nucleic acid oligonucleotides) that can bind to natural and/or synthetic cannabinoids. The method for detecting a natural or synthetic cannabinoid in a sample comprises contacting the sample with an aptamer-based sensor selective for the natural or synthetic cannabinoid, and sensitively and rapidly detecting the natural or synthetic cannabinoid in the sample. The aptamer-based sensor comprises aptamers that can specifically binds to natural and/or synthetic cannabinoids with nanomolar dissociation constant.

An optochemical sensor unit including: an optical waveguide; a transmitting unit for emitting a first transmission signal for exciting a luminophore; a receiving unit for receiving a received signal comprising a signal component emitted by the excited luminophore; a measuring chamber for receiving a fluid, wherein the fluid includes magnetic microspheres; a membrane arranged between the measuring chamber and a measuring medium for exchanging an analyte between the measuring medium and the fluid in the measuring chamber, wherein the measuring diaphragm is impermeable to the magnetic microspheres; and an electromagnet for attracting magnetic microspheres to a sensor membrane with a fluid-contacting surface and/or to a fluid-contacting surface of the optical waveguide, or to a surface of a transparent substrate layer of the optical sensor unit that is connected to the optical waveguide.

The present invention provides a fluorescent dye HPTS-lipo for monitoring two-dimensional pH value, a fluorescent sensing film, and use thereof, belonging to the field of two-dimensional pH value monitoring. The fluorescence sensing film for monitoring two-dimensional pH is prepared from the fluorescent dye HPTS-lipo, and HPTS-lipo is embedded by hydrogel D4 in a preparation process. The fluorescent dye HPTS-lipo is prepared by ligating alkylamine into sulfonic acid groups of the fluorescent dye HPTS. Compared with the fluorescent dye HPTS, the pKa value of the modified fluorescent dye HPTS-lipo is significantly varied, so that the fluorescent sensing film is suitable for monitoring different pH values and meets different experimental requirements; and the fluorescent dye HPTS-lipo has better hydrophobicity, can be kept for longer time in environment, and further solves the problem of dye leakage after being embedded by the hydrogel.

The molecule detecting apparatus of an embodiment includes a light source 31, a fluorescent layer 42 emitting different fluorescence depending on the kind of a target molecule 60 captured when being irradiated with light from the light source 31, a photodetector 32 configured to detect fluorescence, and the photodetector 32 is an array of avalanche photodiodes operating in Geiger mode.

An analytical assembly within a unified device structure for integration into an analytical system. The analytical assembly is scalable and includes a plurality of analytical devices, each of which includes a reaction cell, an optical sensor, and at least one optical element positioned in optical communication with both the reaction cell and the sensor and which delivers optical signals from the cell to the sensor. Additional elements are optionally integrated into the analytical assembly. Methods for forming and operating the analytical system are also disclosed.

The present disclosure relates to an electrochemical sensor for determining a measurand correlating with a concentration of an analyte in a measuring fluid, comprising: a sensor membrane designed to be in contact with the measuring fluid for detecting measured values of the measurand; a probe housing which has at least one immersion region designed for immersion into the measuring fluid, wherein the sensor membrane is arranged in the immersion region of the probe housing; and a measurement circuit which is at least partially contained in the probe housing and is designed to generate and output a measurement signal dependent on the measurand, wherein the sensor membrane contains an optically detectable substance for marking the sensor membrane.