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Editor in charge: Food Science
Recently, the "Agricultural Product Quality and Safety Risk Assessment" innovation team of the Institute of Agricultural Quality Standards and Testing Technology of the Chinese Academy of Agricultural Sciences has made important progress in the key technical theory of rapid heavy metal detection, and proposed for the first time the transmission enhancement of heavy metal elements based on electrothermal evaporation microplasma Technology reveals the morphological evolution mechanism of heavy metal atoms and their nanoparticles during the transportation process
Project funding
The research was supported by the National Natural Science Foundation of China and the Science and Technology Innovation Project of the Chinese Academy of Agricultural Sciences
Liu Jixin, Professor-level Senior Engineer
Mao Xuefei Associate Researcher
Xuefei Mao, Ph.
Presided over 1 National Natural Science Foundation project (solid sampling detection of food trace heavy metals in porous carbon material near torch evaporation-ICP technology and mechanism research, 2013-2016), 1 national key research and development project (new atomic fluorescence spectrometer in agriculture Application demonstration of heavy metal detection in key high-risk samples in the field, 2016-2021), sub-project 1 (research and standard development of soil heavy metal non-digestion detection technology and equipment based on electrothermal evaporation atomic trap, 2017-2020), agricultural industry standard development project 3 items (Formulation of "Technical Specification for Evaluation of Soil Heavy Metal Rapid Testing Instruments"; formulation of "Catalytic Pyrolysis-Atomic Fluorescence Spectrometry for the Determination of Mercury in Farmland Soil", 2018; formulation of "Catalytic Pyrolysis-Gold Amalgam Method for Determination of Mercury in Fertilizers" 》, 2019), a number of basic scientific research business fee projects of central scientific research institutes (Research on the gas-phase enrichment mechanism and application technology of dielectric barrier discharge, 2018-2020; Soil heavy metal analysis matrix interference mechanism and on-site rapid quantitative research, 2019-2020) , Participate in a number of national/provincial-level projects such as the National Natural Science Foundation, major instrument and equipment development, industry technology, and national agricultural product risk assessment
SCI included 25 papers (3 Analytical Chemistry), cumulative IF="89.
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