Chirality Quantification for High‐Performance Nanophotonic Biosensors DOI

Myonghoo Hwang,

Hyeongoo Jung,

Ji‐Young Kim

et al.

Small Methods, Journal Year: 2025, Volume and Issue: unknown

Published: April 8, 2025

Abstract Recent advancements in chiral metabolomics have facilitated the discovery of disease biomarkers through enantioselective measurement metabolites, offering new opportunities for diagnosis, prognosis, and personalized medicine. Although photonic nanomaterials emerged as promising platforms biosensing, enhancing sensitivity enabling detection biomolecules at extremely low concentrations, a deeper understanding relationship between structural optical chirality is crucial optimizing these platforms. This perspective examines recent methods quantifying chirality, including Hausdorff Chirality Measure (HCM), Continuous (CCM), Osipov‐Pickup‐Dunmur (OPD), Graph‐Theoretical (GTC) measure. These approaches advanced both materials biomolecules, well its correlation with responses. work emphasizes role quantification improving biosensor performance explores potential near‐field chiroptical studies to enhance sensor capabilities. Finally, this addresses key challenges outline future research directions advancing biosensors, focus on nano‐bio interface interactions drive development next‐generation sensing technologies.

Language: Английский

The Impact of Environmental Aging Processing on Bioaerosol Detection Using Circular Intensity Differential Scattering (CIDS) DOI Creative Commons

Daniel N. Ackerman,

Yong‐Le Pan,

Aimable Kalume

et al.

Journal of Aerosol Science, Journal Year: 2025, Volume and Issue: 186, P. 106555 - 106555

Published: Feb. 25, 2025

Language: Английский

Citations

0
Chirality Quantification for High‐Performance Nanophotonic Biosensors DOI

Myonghoo Hwang,

Hyeongoo Jung,

Ji‐Young Kim

et al.

Small Methods, Journal Year: 2025, Volume and Issue: unknown

Published: April 8, 2025

Abstract Recent advancements in chiral metabolomics have facilitated the discovery of disease biomarkers through enantioselective measurement metabolites, offering new opportunities for diagnosis, prognosis, and personalized medicine. Although photonic nanomaterials emerged as promising platforms biosensing, enhancing sensitivity enabling detection biomolecules at extremely low concentrations, a deeper understanding relationship between structural optical chirality is crucial optimizing these platforms. This perspective examines recent methods quantifying chirality, including Hausdorff Chirality Measure (HCM), Continuous (CCM), Osipov‐Pickup‐Dunmur (OPD), Graph‐Theoretical (GTC) measure. These approaches advanced both materials biomolecules, well its correlation with responses. work emphasizes role quantification improving biosensor performance explores potential near‐field chiroptical studies to enhance sensor capabilities. Finally, this addresses key challenges outline future research directions advancing biosensors, focus on nano‐bio interface interactions drive development next‐generation sensing technologies.

Language: Английский

Citations

0