Information is obtained from a storage container that houses hazardous or potentially harmful waste. A sensor device is inserted into the container to allow a sensor using a sensor well to extend into the container. The sensor collects information on the conditions of the waste. The sensor well extends through a hole for a filter that vents gasses or vapors from the container. The sensor device also includes a housing with circuitry to perform the sensing as well as transmit and receive signals. In this manner, the sensor device transmits signals with information about the materials within the container for remote monitoring.

Disclosed is a method for determining .sup.224Ra in a sediment by using a pulse ionization chamber emanometer, which belongs to the technical field of analysis and measurement. A pulse ionization chamber emanometer (PIC), a new emanometer, is used. Based on the half-life characteristics of different radon isotopes, one can separate the .sup.220Rn activity from the total counts by dual counting. The resulting .sup.220Rn measurement then can be used to determine the .sup.224Ra activity in sediment according to the principle of secular radioactive equilibrium.

The present invention relates to an assay for detecting secreted proteome acidic and rich in cysteine (SPARC), and more specifically to its use in evaluating lung cancer.

A radiosynthesis system is disclosed that leverages droplet microfluidic radiosynthesis and its inherent advantages including reduction of reagent consumption and the ability to achieve high molar activity even when using low starting radioactivity. The radiosynthesis system enables the parallel synthesis of radiolabeled compounds using droplet-sized reaction volumes. In some embodiments, a single heater is used to create multiple reaction or synthesis sites. In other embodiments, separate heaters are used to create independently-controlled heating conditions at the multiple reaction or synthesis sites. In one embodiment, a four-heater setup was developed that utilizes a multi-reaction microfluidic chip and was assessed for the suitability with high-throughput radiosynthesis optimization. Replicates of several radiochemical operations including the full synthesis of various PET tracers revealed the platform to have high repeatability (e.g., consistent fluorination efficiency). The system may also be used for synthesis optimization.

A compositional visualization system comprises a sensor to collect contextual information, a particle generator to generate a first stream of one or more types of particles, and a detector to receive a second stream of one or more detectable products. The second stream is generated by interaction of the first stream with the environment. The system further comprises computer-executable instructions to cause the system to transform the received second stream into compositional data, and merge the compositional data with the contextual information to generate a merged digital representation. The merged digital representation can be displayed at one or more devices and can also be used directly to drive autonomous robotic systems.