Yanyan Silicon acquires 70% of DGT's equity.
$GRINM Semiconductor Materials (688432.SH)$
Yanyan Silicon announced that the company plans to acquire 70% equity of Holdings Shareholder RS Technologies Co., Ltd. (hereinafter referred to as "RST") held by DG Technologies Co., Ltd. (hereinafter referred to as "DGT") by paying cash.
Summary and Outlook of DGT
Since the birth of DGT technology and its sister technology DET, in-situ high-resolution research on heterogeneous environmental media has always been an important development direction. In order to more accurately and conveniently study the spatial distribution of analytes in media with DGT technology, the adsorption gel and devices of DGT have been specially optimized; for more accurate and convenient reading of the solute distribution adsorbed on the gel by DGT, various high-resolution measurement methods have also been continuously innovated and developed; and in order to more scientifically interpret the results obtained by DGT in soil and sediment, a complete set of DGT theories have been established and improved, while also developing computer software DIFS model for simulation and calculation (see the first article in this series for details).
As a passive sampling technique, DGT and its related technologies breakthroughingly measure the effective concentration of environmentally significant elements, and achieve high-resolution in-situ research on heavy metals in soil and sediment. Especially in the context where the national emphasis on heavy metal pollution and food safety issues is increasing, in the backdrop of the "Water Pollution Prevention and Control Action Plan" (Ten Water Measures) and the "Soil Pollution Prevention and Control Action Plan" (Ten Soil Measures), the in-situ high-resolution research of DGT technology on the micro-interface mechanisms of pollutants in sediment and soil will provide important theoretical support for revealing the key processes controlling heavy metal pollution, thereby offering targeted management and control plans. Furthermore, the development of related new high-uniformity adsorption membranes and multi-indicator synchronous monitoring technologies based on composite materials for heavy metals-nutrients-environmental parameters, as well as the application of DGT in-situ high-resolution technology for the study of critical biogeochemical processes in sediment and rhizosphere soils, will be hotspots in future DGT in-situ high-resolution research with broad development prospects.
Yanyan Silicon announced that the company plans to acquire 70% equity of Holdings Shareholder RS Technologies Co., Ltd. (hereinafter referred to as "RST") held by DG Technologies Co., Ltd. (hereinafter referred to as "DGT") by paying cash.
Summary and Outlook of DGT
Since the birth of DGT technology and its sister technology DET, in-situ high-resolution research on heterogeneous environmental media has always been an important development direction. In order to more accurately and conveniently study the spatial distribution of analytes in media with DGT technology, the adsorption gel and devices of DGT have been specially optimized; for more accurate and convenient reading of the solute distribution adsorbed on the gel by DGT, various high-resolution measurement methods have also been continuously innovated and developed; and in order to more scientifically interpret the results obtained by DGT in soil and sediment, a complete set of DGT theories have been established and improved, while also developing computer software DIFS model for simulation and calculation (see the first article in this series for details).
As a passive sampling technique, DGT and its related technologies breakthroughingly measure the effective concentration of environmentally significant elements, and achieve high-resolution in-situ research on heavy metals in soil and sediment. Especially in the context where the national emphasis on heavy metal pollution and food safety issues is increasing, in the backdrop of the "Water Pollution Prevention and Control Action Plan" (Ten Water Measures) and the "Soil Pollution Prevention and Control Action Plan" (Ten Soil Measures), the in-situ high-resolution research of DGT technology on the micro-interface mechanisms of pollutants in sediment and soil will provide important theoretical support for revealing the key processes controlling heavy metal pollution, thereby offering targeted management and control plans. Furthermore, the development of related new high-uniformity adsorption membranes and multi-indicator synchronous monitoring technologies based on composite materials for heavy metals-nutrients-environmental parameters, as well as the application of DGT in-situ high-resolution technology for the study of critical biogeochemical processes in sediment and rhizosphere soils, will be hotspots in future DGT in-situ high-resolution research with broad development prospects.
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