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Updated: Aug 22, 2025

Development and Functionalization of Electrolyte-Gated Graphene Field-Effect Transistor for Biomarker Detection
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Graphene Synthesis Techniques and Environmental Applications.

Qaisar Abbas1,2, Pragati A Shinde1, Mohammad Ali Abdelkareem1,3

  • 1Sustainable Energy & Power Systems Research Centre, RISE, University of Sharjah, Sharjah 27272, United Arab Emirates.

Materials (Basel, Switzerland)
|November 11, 2022
PubMed
Summary
This summary is machine-generated.

This study reviews graphene synthesis methods and its environmental applications, like water purification and CO2 conversion. Graphene

Keywords:
chemical vapor depositionenvironmental applicationsexfoliationgraphene synthesistwo-dimensional material

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Area of Science:

  • Materials Science and Engineering
  • Environmental Science and Technology
  • Nanotechnology

Background:

  • Graphene, a 2D carbon nanomaterial, exhibits exceptional optical, thermal, mechanical, and electrical properties.
  • Its unique sp2 hybridized atomic structure and large surface area make it highly versatile.
  • Various synthesis methods exist, each with distinct advantages and limitations for specific applications.

Purpose of the Study:

  • To summarize and critically assess graphene preparation techniques.
  • To evaluate the application of graphene, its derivatives, and composites in environmental remediation and monitoring.
  • To analyze trends in graphene synthesis and environmental applications over the past decade.

Main Methods:

  • Review of established graphene synthesis techniques (e.g., CVD, exfoliation methods).
  • Assessment of graphene's role in environmental applications: water purification, gas sensing, heavy metal detection, CO2 conversion.
  • Bibliometric analysis of Scopus data (last 10 years) for synthesis and application trends.

Main Results:

  • Graphene demonstrates significant potential in environmental applications, including advanced water treatment membranes and sensitive gas sensors.
  • Its derivatives and composites further enhance performance in areas like heavy metal ion detection and CO2 capture/conversion.
  • Trend analysis reveals increasing research focus on both synthesis optimization and diverse environmental uses of graphene.

Conclusions:

  • Graphene and its composites offer promising solutions for pressing environmental challenges.
  • Further research is needed to overcome synthesis scalability and application-specific challenges.
  • Continued innovation in graphene technology is crucial for sustainable environmental management.