Issue 22, 2024

Microneedle (MN)-based sensing technology: an innovative solution for agriculture

Abstract

Agricultural health is one of the most important aspects of improving crop productivity, which can significantly decrease the demand for food. Plant diseases and nutritional value are among the crucial factors affecting food safety and quality, subsequently reducing the yield of the crops and increasing plant mortality. Therefore, continuous monitoring of plant health is of utmost importance to enhance the yield of crops. In this aspect, microneedle (MN)-based sensing technology is potentially able to monitor agricultural health. Borrowing a page from medicine, minimally invasive MNs have been effectively used to deliver drugs and biomolecules within the human body without any pain or tissue damage. Usually, MNs have been divided by researchers into four groups: solid microneedles (S-MNs), hollow microneedles (H-MNs), dissolving microneedles (D-MNs), and coated microneedles (C-MNs), which are effectively used according to requirements of delivery of biomolecules and sensing applications. The MN-based probe is directly attached to the relevant part of the plant tissue, thereby bypassing the cuticles. Interestingly, MN-based sensing technology offers newer insight into agriculture health by continuously monitoring plant health, including nutritional values and pathogens. This article opens newer avenues and provides knowledge about the fabrication of MN-based sensing technology for plant health that might benefit the food and agricultural industry.

Graphical abstract: Microneedle (MN)-based sensing technology: an innovative solution for agriculture

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Article information

Article type
Perspective
Submitted
09 May 2024
Accepted
23 Sep 2024
First published
25 Sep 2024
This article is Open Access
Creative Commons BY-NC license

Mater. Adv., 2024,5, 8745-8754

Microneedle (MN)-based sensing technology: an innovative solution for agriculture

S. Kumari, N. Talreja, D. Chauhan and M. Ashfaq, Mater. Adv., 2024, 5, 8745 DOI: 10.1039/D4MA00479E

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