This disclosure provides for methods and reagents for rapid multiplex RPA reactions and improved methods for detection of multiplex RPA reaction products. In addition, the disclosure provides new methods for eliminating carryover contamination between RPA processes.

A molecular detection apparatus of an embodiment includes: a first detector which includes a first sensor containing a MOF having a fluorescence emitting property, a light source which irradiates the MOF with light, and a light receiver which receives fluorescence from the MOF; a second detector which includes a sensor layer electrodes electrically connected with the sensor layer; and a type discrimination and concentration calculation part which discriminates a type of the molecules to be detected based on a measurement result measured by the first detector, and calculates a concentration of the molecules a measurement result measured by the second detector based on a discrimination result of a type of the molecules.

The present disclosure provides methods and systems for performing single-molecule detection using fabricated integrated on-chip devices. In an aspect, the present disclosure provides a method for on-chip detection of an array of biological, chemical, or physical entities, comprising: (a) providing an array of light sensing devices; (b) immobilizing the array of biological, chemical, or physical entities on a substrate of the array of light sensing devices; (c) exposing the array of biological, chemical, or physical entities to electromagnetic radiation sufficient to excite the array of biological, chemical, or physical entities, thereby producing an emission signal of the array of biological, chemical, or physical entities; (d) using the array of light sensing devices, acquiring pixel information of the emission signal of the array of biological, chemical, or physical entities without scanning the array of light sensing devices across the array of biological, chemical, or physical entities; and (d) detecting the array of biological, chemical, or physical entities based at least in part on the acquired pixel information.

A colorimetric sensor array includes a CMOS image sensor having a surface including pixels and a multiplicity of colorimetric sensing elements. Each sensing element has a sensing material disposed directly on one or more of the pixels. The colorimetric sensing elements are distributed randomly on the surface of the CMOS image sensor. Fabricating the colorimetric sensor array includes spraying a sensing fluid in the form of droplets directly on a surface of a CMOS image sensor and removing the solvent from the droplets to yield a multiplicity of sensing elements on the surface of the CMOS image sensor. Each droplet covers one or more pixels of the CMOS image sensor with the sensing fluid. The sensing fluid includes a solvent and a sensing material. The droplets are distributed randomly on the surface of the CMOS image sensor.

The present disclosure relates to probes for analyzing a chemical composition, and related methods of analyzing a chemical composition and of manufacturing probes for analyzing a chemical composition. A benefit of the disclosed probes and methods can include luminescent chemical sensor arrays for rapid, accurate, portable and economical qualitative and quantitative analysis of a broad range of chemical compositions. A benefit of the methods disclosed herein can include the rapid, simple, and accurate analysis of trace chemicals present in chemical compositions.

A sample of water is tested for silica and phosphate content in a single apparatus. In the test method, a first sample of the water is colorimetrically analyzed in a reaction chamber using a “molybdenum blue” test in which silica and phosphate in the sample are complexed with a first reagent. The phosphate complexes are then optically inactivated by a second reagent and the color of the silica complexes is intensified with a third reagent. From this, the silica content is calculated. A further sample is colorimetrically analyzed without using the second reagent, so that a combined silica and phosphate content of the further sample is obtained. A value of the silica content is subtracted from the value of the combined silica and phosphate content, resulting in a phosphate content for the sample. The silica content and the phosphate content of the sample are reportable.

Method and compositions using transition metal salts and/or ammonium chloride to liberate toxins and other molecules from cyanobacteria, useful for assaying for total cyanobacterial toxins in lakes, reservoirs and other waters.

The present invention provides a chemical sensor comprising a substrate, a first colorimetric sensor array exposed and arranged in a first accommodating space of the substrate and a second colorimetric sensor array arranged in a second accommodating space of the substrate. The second accommodating space is covered with an isolating layer to isolates liquid molecules but allows gas molecules to pass through. The first colorimetric sensor array changes from a first initial color to a first indicating color according to a volatile part and a non-volatile part of an analyte, and the second colorimetric sensor array changes from a second initial color to a second indicating color according to the volatile part of the analyte, so that information of the volatile part and the non-volatile part of the analyte can be obtained simultaneously.

A system for detecting COVID-19 infection, including a colorimetric sensor, an image-capturing device, and a processing unit connected to the image-capturing device. The colorimetric sensor includes an injection zone and a detection zone patterned on a paper, where the injection zone covers the detection zone by folding the paper. The injection zone is configured to inject a saliva sample acquired from a person thereon. The detection zone includes an array of chemical receptors configured to interact with the injected saliva penetrating into the detection zone. The processing unit is configured to perform a method of capturing a first image from the detection zone before injection of the saliva sample, capturing a second image from the detection zone after injection of the saliva sample, and detecting COVID-19 infection status of the person by analyzing color changes of the array of chemical receptors in the second image respective to the first image.

The present invention relates to a method for detecting an analyte in a sample, comprising the steps of: forming on each of carrier particles a complex containing a first capture substance capable of binding to an analyte, one molecule of the analyte, a second capture substance capable of binding to the analyte, and a catalyst; immobilizing a reaction product on each of the carrier particles by reacting the catalyst in the compolex with a substrate; and detecting the analyte by detecting the carrier particles on each of which the reaction product is immobilized.