PERFORM Publications

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Title		Authors	PubMed ID
1	Response surface analysis of CuInSe sub 2 /sub nanoparticle synthesis: unravelling the interplay of temperature, time, and ligand composition for size control	Páramo L; Garcia-Henao C; Capobianco JA; Naccache R;	41729592 CHEMBIOCHEM
2	Mechanochemically-mediated dynamic imine bond conjugation for drug delivery using carbon dots	Fuoco G; Mandl GA; De Mesa C; Capobianco JA; Naccache R;	41288467 CHEMBIOCHEM
3	pH-Sensitive Release of Functionalized Chiral Carbon Dots from PLGA Coatings on Titanium Alloys for Biomedical Applications	López-Muñoz R; Chevallier P; Copes F; Naccache R; Mantovani D;	41096312 CHEMBIOCHEM
4	Unraveling glyphosate sequestration: The role of natural organic matter fractions in soil-water contamination and retention	Adeola AO; Paramo L; Duarte MP; Fuoco G; Naccache R;	40939356 CHEMBIOCHEM
5	Luminescent Electro-Spun Nanofibers Crosslinked with Boronic Esters Exhibiting Controlled Release of Carbon Dots for Detection of Wound pHs and Enhanced Antimicrobial	Lokuge ND; Casillas-Popova SN; Singh P; Clermont-Paquette A; Skinner CD; Findlay BL; Naccache R; Oh JK;	40920389 BIOLOGY
6	Surface charge dictates the mechanism of cellular uptake of fluorescent amine passivated carbon dots	Clermont-Paquette A; Fuoco G; Brancheriau CR; Piekny A; Naccache R;	40861971 CHEMBIOCHEM
7	A Zirconium-Based Metal-Organic Framework as an Effective Green Catalyst for the Synthesis of Biodiesel	P Duarte M; Diniz CV; Bicalho HA; Naccache R; Howarth AJ;	40267316 CHEMBIOCHEM
8	Emerging hazardous chemicals and biological pollutants in Canadian aquatic systems and remediation approaches: A comprehensive status report	Adeola AO; Paramo L; Fuoco G; Naccache R;	39278485 CHEMBIOCHEM
9	Efficient Decaffeination with Recyclable Magnetic Microporous Carbon from Renewable Sources: Kinetics and Isotherm Analysis	Duarte MP; Adeola AO; Fuoco G; Jargaille TJ; Naccache R;	38909946 CHEMBIOCHEM
10	Electroconductive Collagen-Carbon Nanodots Nanocomposite Elicits Neurite Outgrowth, Supports Neurogenic Differentiation and Accelerates Electrophysiological Maturation of Neural Progenitor Spheroids	Lomboni DJ; Ozgun A; de Medeiros TV; Staines W; Naccache R; Woulfe J; Variola F;	37922888 CHEMBIOCHEM
11	Advances in the design and use of carbon dots for analytical and biomedical applications	Adeola AO; Clermont-Paquette A; Piekny A; Naccache R;	37757783 CHEMBIOCHEM
12	Ratiometric Sensing of Glyphosate in Water Using Dual Fluorescent Carbon Dots	Clermont-Paquette A; Mendoza DA; Sadeghi A; Piekny A; Naccache R;	37299928 BIOLOGY
13	Engineering the Surface Chemistry and Morphology of Polymeric Carbon Nitrides Towards Greener Heterogeneous Catalysts for Biodiesel Synthesis	de Medeiros TV; Macina A; Bicalho HA; Naccache R;	37058095 CHEMBIOCHEM
14	Tuning residual chirality in carbon dots with anti-microbial properties	Victoria F; Manioudakis J; Zaroubi L; Findlay B; Naccache R;	35518167 CHEMBIOCHEM
15	Green synthesis of carbon dots and their applications	Chahal S; Macairan JR; Yousefi N; Tufenkji N; Naccache R;	35478913 ENCS
16	Role of tau protein on the photophysical properties of fluorescent carbon dots	Camilus NS; Lucas S; Wu C; Naccache R; Martic S;	34971135 CONCORDIA
17	Elucidating the mechanism of dual-fluorescence in carbon dots	Macairan JR; de Medeiros TV; Gazzetto M; Yarur Villanueva F; Cannizzo A; Naccache R;	34388574 CNSR
18	Effects of polydopamine-passivation on the optical properties of carbon dots and its potential use in vivo.	Pappalardo JS, Macairan JR, Macina A, Poulhazan A, Quattrocchi V, Marcotte I, Naccache R	32666968 NA
19	Terahertz three-dimensional monitoring of nanoparticle-assisted laser tissue soldering.	Dong J, Breitenborn H, Piccoli R, Besteiro LV, You P, Caraffini D, Wang ZM, Govorov AO, Naccache R, Vetrone F, Razzari L, Morandotti R	32341881 CHEMBIOCHEM
20	Facile Aqueous-Phase Synthesis of an Ultrasmall Bismuth Nanocatalyst for the Reduction of 4-Nitrophenol.	Liang Y, Manioudakis J, Macairan JR, Askari MS, Forgione P, Naccache R	31552336 CHEMBIOCHEM

Title:	Terahertz three-dimensional monitoring of nanoparticle-assisted laser tissue soldering.
Authors:	Dong J, Breitenborn H, Piccoli R, Besteiro LV, You P, Caraffini D, Wang ZM, Govorov AO, Naccache R, Vetrone F, Razzari L, Morandotti R
Link:	https://www.ncbi.nlm.nih.gov/pubmed/32341881?dopt=Abstract
DOI:	10.1364/BOE.389561
Publication:	Biomedical optics express
Keywords:
PMID:	32341881	Category:	Biomed Opt Express	Date Added:	2020-04-29
Dept Affiliation:	CHEMBIOCHEM 1 Institut National de la Recherche Scientifique (INRS), Centre Énergie, Matériaux et Télécommunications (EMT), Varennes, QC J3X 1S2, Canada. 2 junliang.dong@emt.inrs.ca. 3 Institute of Fundamental and Frontier Sciences, University of Electronic Science and Technology of China, Chengdu 610054, Sichuan, China. 4 Department of Physics and Astronomy, Ohio University, Athens, Ohio 45701, USA. 5 Department of Chemistry and Biochemistry and Centre for NanoScience Research, Concordia University, Montreal, QC H4B 1R6, Canada. 6 Quebec Centre for Advanced Materials, Department of Chemistry and Biochemistry, Concordia University, Montreal, QC H4B 1R6, Canada. 7 morandotti@emt.inrs.ca.

Description:

Terahertz three-dimensional monitoring of nanoparticle-assisted laser tissue soldering.

Biomed Opt Express. 2020 Apr 01;11(4):2254-2267

Authors: Dong J, Breitenborn H, Piccoli R, Besteiro LV, You P, Caraffini D, Wang ZM, Govorov AO, Naccache R, Vetrone F, Razzari L, Morandotti R

Abstract

In view of minimally-invasive clinical interventions, laser tissue soldering assisted by plasmonic nanoparticles is emerging as an appealing concept in surgical medicine, holding the promise of surgeries without sutures. Rigorous monitoring of the plasmonically-heated solder and the underlying tissue is crucial for optimizing the soldering bonding strength and minimizing the photothermal damage. To this end, we propose a non-invasive, non-contact, and non-ionizing modality for monitoring nanoparticle-assisted laser-tissue interaction and visualizing the localized photothermal damage, by taking advantage of the unique sensitivity of terahertz radiation to the hydration level of biological tissue. We demonstrate that terahertz radiation can be employed as a versatile tool to reveal the thermally-affected evolution in tissue, and to quantitatively characterize the photothermal damage induced by nanoparticle-assisted laser tissue soldering in three dimensions. Our approach can be easily extended and applied across a broad range of clinical applications involving laser-tissue interaction, such as laser ablation and photothermal therapies.

PMID: 32341881 [PubMed]

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