Raman spectroscopy is a non-destructive spectroscopic technique that uses a laser light source to irradiate the surface of a sample, and analyzes the molecular vibration information by observing the frequency shift of the scattered light from the sample.
More >The fluorescent explosive detection sensor technology utilizes specific interactions between fluorescent probes and target explosive molecules to achieve highly sensitive detection of explosives.
More >Bioaerosol sensing technology is an advanced method used to detect biological particles in the air. By collecting air samples and introducing them into sensors, this technology can rapidly identify and analyze microorganisms in aerosols.
More >A Photoionization Detector (PID) is a sensor commonly used to detect Volatile Organic Compounds (VOCs) in the air. It operates by ionizing gas samples using ultraviolet light, generating ionized molecules, and then measuring the current produced.
More >Nuclear radiation includes alpha, beta, gamma, and neutron emissions from atomic nuclei. Alpha emits helium nuclei, beta releases electrons or positrons, gamma emits high-energy waves, and neutrons are free particles.
More >Ion mobility spectrometry technology separates ions based on their mobility in a gas under an electric field, enabling rapid and sensitive detection of various compounds in complex samples.
More >Electrochemical sensors detect target substances by measuring changes in electrical signals resulting from chemical reactions at electrodes. They are widely used for rapid and sensitive detection in various fields.
More >Sensor array technology employs a combination of sensors to detect chemical, biological, radiological, nuclear, and explosive threats, providing comprehensive and rapid threat identification in diverse environments.
More >Unmanned aerial vehicle (UAV) technology encompasses unmanned aircraft, unmanned ground vehicles (UGVs), and underwater devices, among others.
More >AI integration with sensors broadens their applications, enabling data processing, intelligent perception, decision-making, adaptive control, and optimization. This synergy enhances sensor capabilities across various domains and application scenarios.
More >Internet of Things (IoT) sensor devices are smart sensors and devices connected to the internet, capable of collecting, transmitting, and analyzing environmental data, and performing real-time monitoring and control through cloud platforms.
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