Dopamine sensing by fluorescent carbon nanoparticles synthesized using artichoke extract

Roberta Puglisi; Laura Maria Mancuso; Rossella Santonocito; Antonino Gulino; Valentina Oliveri; Roberta Ruffino; Giovanni Li Destri; Vera Muccilli; Nunzio Cardullo; Nunzio Tuccitto; Andrea Pappalardo; Gianfranco Sfuncia; Giuseppe Nicotra; Manuel Petroselli; Francesco Pappalardo; Vincenzo Zaccaria; Giuseppe Trusso Sfrazzetto

doi:10.1039/d4tb00651h

Dopamine sensing by fluorescent carbon nanoparticles synthesized using artichoke extract

Roberta Puglisi, Laura Maria Mancuso, Rossella Santonocito, Antonino Gulino, Valentina Oliveri, Roberta Ruffino, Giovanni Li Destri, Vera Muccilli, Nunzio Cardullo, Nunzio Tuccitto, Andrea Pappalardo, Gianfranco Sfuncia, Giuseppe Nicotra, Manuel Petroselli, Francesco Pappalardo, Vincenzo Zaccaria, Giuseppe Trusso Sfrazzetto

Risultato della ricerca: Contributo su rivista › Articolo in rivista › peer review

Abstract

The practical and easy detection of dopamine levels in human fluids, such as urine and saliva, is of great interest due to the correlation of dopamine concentration with several diseases. In this work, the one-step synthesis of water-soluble carbon nanoparticles (CNPs), starting from artichoke extract, containing catechol groups, for the fluorescence sensing of dopamine is reported. Size, morphology, chemical composition and electronic structure of CNPs were elucidated by DLS, AFM, XPS, FT-IR, EDX and TEM analyses. Their optical properties were then explored by UV-vis and fluorescence measurements in water. The dopamine recognition properties of these CNPs were investigated in water through fluorescence measurements and we observed the progressive enhancement of the CNP emission intensity upon the progressive addition of dopamine, with a binding affinity value of log K = 5.76 and a detection limit of 0.81 nM. Selectivity towards dopamine was tested over other interfering analytes commonly present in human saliva. Finally, in order to perform a solid point of care test, CNPs were adsorbed on a solid support and exposed to different concentrations of dopamine, thus observing a pseudo-linear response, using a smartphone as a detector. Therefore, the detection of dopamine in simulated human saliva was performed with excellent results, in terms of selectivity and a detection limit of 100 pM.

Lingua originale	Inglese
pagine (da-a)	7826-7836
Numero di pagine	11
Rivista	Journal of Materials Chemistry B
Volume	12
Numero di pubblicazione	32
DOI	https://doi.org/10.1039/d4tb00651h
Stato di pubblicazione	Pubblicato - 9 lug 2024
Pubblicato esternamente	Sì

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Puglisi, R., Mancuso, L. M., Santonocito, R., Gulino, A., Oliveri, V., Ruffino, R., Li Destri, G., Muccilli, V., Cardullo, N., Tuccitto, N., Pappalardo, A., Sfuncia, G., Nicotra, G., Petroselli, M., Pappalardo, F., Zaccaria, V., & Trusso Sfrazzetto, G. (2024). Dopamine sensing by fluorescent carbon nanoparticles synthesized using artichoke extract. Journal of Materials Chemistry B, 12(32), 7826-7836. https://doi.org/10.1039/d4tb00651h

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title = "Dopamine sensing by fluorescent carbon nanoparticles synthesized using artichoke extract",

abstract = "The practical and easy detection of dopamine levels in human fluids, such as urine and saliva, is of great interest due to the correlation of dopamine concentration with several diseases. In this work, the one-step synthesis of water-soluble carbon nanoparticles (CNPs), starting from artichoke extract, containing catechol groups, for the fluorescence sensing of dopamine is reported. Size, morphology, chemical composition and electronic structure of CNPs were elucidated by DLS, AFM, XPS, FT-IR, EDX and TEM analyses. Their optical properties were then explored by UV-vis and fluorescence measurements in water. The dopamine recognition properties of these CNPs were investigated in water through fluorescence measurements and we observed the progressive enhancement of the CNP emission intensity upon the progressive addition of dopamine, with a binding affinity value of log K = 5.76 and a detection limit of 0.81 nM. Selectivity towards dopamine was tested over other interfering analytes commonly present in human saliva. Finally, in order to perform a solid point of care test, CNPs were adsorbed on a solid support and exposed to different concentrations of dopamine, thus observing a pseudo-linear response, using a smartphone as a detector. Therefore, the detection of dopamine in simulated human saliva was performed with excellent results, in terms of selectivity and a detection limit of 100 pM.",

author = "Roberta Puglisi and Mancuso, {Laura Maria} and Rossella Santonocito and Antonino Gulino and Valentina Oliveri and Roberta Ruffino and {Li Destri}, Giovanni and Vera Muccilli and Nunzio Cardullo and Nunzio Tuccitto and Andrea Pappalardo and Gianfranco Sfuncia and Giuseppe Nicotra and Manuel Petroselli and Francesco Pappalardo and Vincenzo Zaccaria and {Trusso Sfrazzetto}, Giuseppe",

note = "Publisher Copyright: {\textcopyright} 2024 The Royal Society of Chemistry.",

year = "2024",

month = jul,

day = "9",

doi = "10.1039/d4tb00651h",

language = "English",

volume = "12",

pages = "7826--7836",

journal = "Journal of Materials Chemistry B",

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Puglisi, R, Mancuso, LM, Santonocito, R, Gulino, A, Oliveri, V, Ruffino, R, Li Destri, G, Muccilli, V, Cardullo, N, Tuccitto, N, Pappalardo, A, Sfuncia, G, Nicotra, G, Petroselli, M, Pappalardo, F, Zaccaria, V & Trusso Sfrazzetto, G 2024, 'Dopamine sensing by fluorescent carbon nanoparticles synthesized using artichoke extract', Journal of Materials Chemistry B, vol. 12, n. 32, pagg. 7826-7836. https://doi.org/10.1039/d4tb00651h

TY - JOUR

T1 - Dopamine sensing by fluorescent carbon nanoparticles synthesized using artichoke extract

AU - Puglisi, Roberta

AU - Mancuso, Laura Maria

AU - Santonocito, Rossella

AU - Gulino, Antonino

AU - Oliveri, Valentina

AU - Ruffino, Roberta

AU - Li Destri, Giovanni

AU - Muccilli, Vera

AU - Cardullo, Nunzio

AU - Tuccitto, Nunzio

AU - Pappalardo, Andrea

AU - Sfuncia, Gianfranco

AU - Nicotra, Giuseppe

AU - Petroselli, Manuel

AU - Pappalardo, Francesco

AU - Zaccaria, Vincenzo

AU - Trusso Sfrazzetto, Giuseppe

PY - 2024/7/9

Y1 - 2024/7/9

N2 - The practical and easy detection of dopamine levels in human fluids, such as urine and saliva, is of great interest due to the correlation of dopamine concentration with several diseases. In this work, the one-step synthesis of water-soluble carbon nanoparticles (CNPs), starting from artichoke extract, containing catechol groups, for the fluorescence sensing of dopamine is reported. Size, morphology, chemical composition and electronic structure of CNPs were elucidated by DLS, AFM, XPS, FT-IR, EDX and TEM analyses. Their optical properties were then explored by UV-vis and fluorescence measurements in water. The dopamine recognition properties of these CNPs were investigated in water through fluorescence measurements and we observed the progressive enhancement of the CNP emission intensity upon the progressive addition of dopamine, with a binding affinity value of log K = 5.76 and a detection limit of 0.81 nM. Selectivity towards dopamine was tested over other interfering analytes commonly present in human saliva. Finally, in order to perform a solid point of care test, CNPs were adsorbed on a solid support and exposed to different concentrations of dopamine, thus observing a pseudo-linear response, using a smartphone as a detector. Therefore, the detection of dopamine in simulated human saliva was performed with excellent results, in terms of selectivity and a detection limit of 100 pM.

AB - The practical and easy detection of dopamine levels in human fluids, such as urine and saliva, is of great interest due to the correlation of dopamine concentration with several diseases. In this work, the one-step synthesis of water-soluble carbon nanoparticles (CNPs), starting from artichoke extract, containing catechol groups, for the fluorescence sensing of dopamine is reported. Size, morphology, chemical composition and electronic structure of CNPs were elucidated by DLS, AFM, XPS, FT-IR, EDX and TEM analyses. Their optical properties were then explored by UV-vis and fluorescence measurements in water. The dopamine recognition properties of these CNPs were investigated in water through fluorescence measurements and we observed the progressive enhancement of the CNP emission intensity upon the progressive addition of dopamine, with a binding affinity value of log K = 5.76 and a detection limit of 0.81 nM. Selectivity towards dopamine was tested over other interfering analytes commonly present in human saliva. Finally, in order to perform a solid point of care test, CNPs were adsorbed on a solid support and exposed to different concentrations of dopamine, thus observing a pseudo-linear response, using a smartphone as a detector. Therefore, the detection of dopamine in simulated human saliva was performed with excellent results, in terms of selectivity and a detection limit of 100 pM.

UR - http://www.scopus.com/inward/record.url?scp=85199568114&partnerID=8YFLogxK

U2 - 10.1039/d4tb00651h

DO - 10.1039/d4tb00651h

M3 - Article

SN - 2050-750X

VL - 12

SP - 7826

EP - 7836

JO - Journal of Materials Chemistry B

JF - Journal of Materials Chemistry B

IS - 32

ER -

Dopamine sensing by fluorescent carbon nanoparticles synthesized using artichoke extract

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