TY  - CONF
EP  - 108
UR  - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85182748223&doi=10.1109%2fSENNANO57767.2023.10352572&partnerID=40&md5=d79fbe23f1bc93345bd3fb649a1f54a1
A1  - Ijaz, M.S.
A1  - Rashid, H.
A1  - Ajaz, M.
A1  - Ali Al-Mahbashi, A.Y.
A1  - Mohd Nawi, I.B.
Y1  - 2023///
KW  - Molecules; Nanosensors; Plasmonics; Risk assessment
KW  -  Environmental Monitoring; Molecular imprint; Molecularly imprinted; Molecularly imprinted polymer; Nanoscale structure; Nanotransducers; Plasmonic sensors; Plasmonics; Target molecule
KW  -  Health risks
SP  - 105
TI  - Enhancing Environmental Monitoring: Molecularly Imprinted Plasmonic Sensors as Nanotransducers
ID  - scholars18977
N2  - Plasmonic nanosensors with molecular imprints are reliable tools for selectively interacting with target molecules and occasionally catalyzing reactions. Recent advancements in nanoscale structure control have facilitated the development of a diverse range of chemical sensors for environmental monitoring. The increasing environmental contamination resulting from the activities of living organisms, along with their detrimental effects on ecology, underscores the urgency for rapid and user-friendly methods for on-site environmental evaluation and monitoring. Rapid and accurate assessment of environmental quality is crucial in addressing the growing concerns over pollution, habitat degradation, and human health risks. © 2023 IEEE.
N1  - cited By 0; Conference of 2023 IEEE International Conference on Sensors and Nanotechnology, SENNANO 2023 ; Conference Date: 26 September 2023 Through 27 September 2023; Conference Code:195657
AV  - none
ER  -