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Seamless integration of Internet of Things, miniaturization, and environmental chemical surveillance

  • 0Department of Analytical Chemistry, Faculty of Chemistry, Lorestan University, Khorramabad, Iran.
Environmental Monitoring and Assessment +

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May 28, 2024

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May 28, 2024

View abstract on PubMed

Summary

This summary is machine-generated.

The Internet of Things (IoT) is revolutionizing analytical chemistry by enabling miniaturization, automation, and data exchange for greener practices. This technology enhances environmental monitoring and educational chemistry labs.

Area Of Science

  • Analytical Chemistry
  • Green Chemistry
  • Environmental Science

Background

  • The Internet of Things (IoT) is a transformative technology impacting various scientific fields, including chemistry.
  • Integrating IoT with sustainable practices and green chemistry principles is crucial for modern scientific advancements.
  • IoT facilitates rapid data exchange in analytical chemistry for diverse applications like environmental monitoring and healthcare.

Purpose Of The Study

  • To review the fundamental concepts, architectural requirements, and integration of IoT in analytical chemistry.
  • To explore the role of IoT in the miniaturization and automation of analytical tools and methodologies.
  • To discuss the impact of IoT on environmental chemical surveillance and chemical education.

Main Methods

  • Review of IoT concepts, architecture, and electronic modules/sensors for analytical instrumentation.
  • Analysis of IoT standards and perspectives in relation to analytical chemistry subfields.
  • Exploration of IoT applications in environmental monitoring and DIY educational chemistry devices.

Main Results

  • IoT integration enables enhanced miniaturization and automation of analytical systems.
  • The technology facilitates efficient data exchange, crucial for environmental, industrial, and healthcare applications.
  • IoT adoption supports green chemistry principles and improves accessibility to chemical education and lab equipment.

Conclusions

  • IoT is a significant driver for innovation in analytical chemistry, promoting efficiency and sustainability.
  • The widespread adoption of IoT will profoundly impact various subfields of analytical chemistry, especially environmental surveillance.
  • IoT empowers chemists with advanced tools and enhances educational experiences, reducing traditional lab barriers.

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