Lab-on-a chip with green nanomaterials

Document Type

Article

Publication Date

1-1-2024

Abstract

The latest trends in miniaturized systems-based sensing processes are driven through a number of outstanding superiorities including decreasing the channel size from mm to µm leading to a drastic reduction in the volume of sample, solvent and other reagents. Furthermore, the 2- and 3-D channel layouts in the microfluidic platforms enable the effective integration of multiple sample processing modules into a single chip which significantly eliminates the concerns of sample loss and contamination issues. Over the past years, the field broadly known as lab-on-a chip (LOC) has experienced a dramatic growth due to the rapid progresses of microfabrication techniques and novel nanomaterials that lead to crucial progresses in numerous research areas including engineering, material science, chemistry, biology and medicine. This chapter highlights the recent advancements in the design and production of green nanomaterials-based LOC platforms for sensing applications in food, diagnostics and environmental monitoring. After the first section where the significance and superiorities of LOC platforms are presented, the green routes for the synthesis of nanomaterials are presented. Then, the significance of the combination of green nanomaterials with LOC platforms is demonstrated. In the next section, sensing applications of green nanomaterials-based LOC platforms towards various analytes is discussed. In the final part, conclusions and future perspectives are presented.

Identifier

85189088908 (Scopus)

ISBN

[9780443239687]

Publication Title

Comprehensive Analytical Chemistry

External Full Text Location

https://doi.org/10.1016/bs.coac.2023.10.008

ISSN

0166526X

First Page

117

Last Page

140

Volume

105

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