Unveiling liquid-phase exfoliation of graphite and boronnitride using fluorescent dyes through combinedexperiments and simulations
Liquid-phase exfoliation (LPE) in aqueous solutions provides a simple, scalable, and green approach to produce 2D materials. By combining atomistic simulations with exfoliation experiments, the interaction between a surfactant and a 2D layer at the molecular scale can be better understood. In this w...
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2024
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Chemistry Engineering 2D materials Adsorption Molecular self-assembly Sonication-assisted exfoliation |
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Chemistry Engineering 2D materials Adsorption Molecular self-assembly Sonication-assisted exfoliation He, Yilin Qian, Xuliang da Silva, Guilherme Carneiro Queiroz Gabellini, Cristian Lucherelli, Matteo Andrea Biagiotti, Giacomo Richichi, Barbara Ménard-Moyon, Cécilia Gao, Huajian Posocco, Paola Bianco, Alberto Unveiling liquid-phase exfoliation of graphite and boronnitride using fluorescent dyes through combinedexperiments and simulations |
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Liquid-phase exfoliation (LPE) in aqueous solutions provides a simple, scalable, and green approach to produce 2D materials. By combining atomistic simulations with exfoliation experiments, the interaction between a surfactant and a 2D layer at the molecular scale can be better understood. In this work, two different dyes, corresponding to rhodamine B base (Rbb) and to a phenylboronic acid BODIPY (PBA-BODIPY) derivative, are employed as dispersants to exfoliate graphene and hexagonal boron nitride (hBN) through sonication-assisted LPE. The exfoliated 2D sheets, mostly as few-layers, exhibit good quality and high loading of dyes. Using molecular dynamics (MD) simulations, the binding free energies are calculated and the arrangement of both dyes on the layers are predicted. It has been found that the dyes show a higher affinity toward hBN than graphene, which is consistent with the higher yields of exfoliated hBN. Furthermore, it is demonstrated that the adsorption behavior of Rbb molecules on graphene and hBN is quite different compared to PBA-BODIPY. |
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School of Mechanical and Aerospace Engineering |
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School of Mechanical and Aerospace Engineering He, Yilin Qian, Xuliang da Silva, Guilherme Carneiro Queiroz Gabellini, Cristian Lucherelli, Matteo Andrea Biagiotti, Giacomo Richichi, Barbara Ménard-Moyon, Cécilia Gao, Huajian Posocco, Paola Bianco, Alberto |
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Article |
| author |
He, Yilin Qian, Xuliang da Silva, Guilherme Carneiro Queiroz Gabellini, Cristian Lucherelli, Matteo Andrea Biagiotti, Giacomo Richichi, Barbara Ménard-Moyon, Cécilia Gao, Huajian Posocco, Paola Bianco, Alberto |
| author_sort |
He, Yilin |
| title |
Unveiling liquid-phase exfoliation of graphite and boronnitride using fluorescent dyes through combinedexperiments and simulations |
| title_short |
Unveiling liquid-phase exfoliation of graphite and boronnitride using fluorescent dyes through combinedexperiments and simulations |
| title_full |
Unveiling liquid-phase exfoliation of graphite and boronnitride using fluorescent dyes through combinedexperiments and simulations |
| title_fullStr |
Unveiling liquid-phase exfoliation of graphite and boronnitride using fluorescent dyes through combinedexperiments and simulations |
| title_full_unstemmed |
Unveiling liquid-phase exfoliation of graphite and boronnitride using fluorescent dyes through combinedexperiments and simulations |
| title_sort |
unveiling liquid-phase exfoliation of graphite and boronnitride using fluorescent dyes through combinedexperiments and simulations |
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2024 |
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https://hdl.handle.net/10356/174290 |
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1795302144976355328 |
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sg-ntu-dr.10356-1742902024-03-30T16:48:03Z Unveiling liquid-phase exfoliation of graphite and boronnitride using fluorescent dyes through combinedexperiments and simulations He, Yilin Qian, Xuliang da Silva, Guilherme Carneiro Queiroz Gabellini, Cristian Lucherelli, Matteo Andrea Biagiotti, Giacomo Richichi, Barbara Ménard-Moyon, Cécilia Gao, Huajian Posocco, Paola Bianco, Alberto School of Mechanical and Aerospace Engineering Institute of High-Performance Computing, A*STAR Chemistry Engineering 2D materials Adsorption Molecular self-assembly Sonication-assisted exfoliation Liquid-phase exfoliation (LPE) in aqueous solutions provides a simple, scalable, and green approach to produce 2D materials. By combining atomistic simulations with exfoliation experiments, the interaction between a surfactant and a 2D layer at the molecular scale can be better understood. In this work, two different dyes, corresponding to rhodamine B base (Rbb) and to a phenylboronic acid BODIPY (PBA-BODIPY) derivative, are employed as dispersants to exfoliate graphene and hexagonal boron nitride (hBN) through sonication-assisted LPE. The exfoliated 2D sheets, mostly as few-layers, exhibit good quality and high loading of dyes. Using molecular dynamics (MD) simulations, the binding free energies are calculated and the arrangement of both dyes on the layers are predicted. It has been found that the dyes show a higher affinity toward hBN than graphene, which is consistent with the higher yields of exfoliated hBN. Furthermore, it is demonstrated that the adsorption behavior of Rbb molecules on graphene and hBN is quite different compared to PBA-BODIPY. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Nanyang Technological University Submitted/Accepted version This work was supported by the Centre National de la Recherche Scientifique (CNRS), by the Agence Nationale de la Recherche (ANR) through the LabEx project Chemistry of Complex Systems (ANR-10-LABX-0026_CSC) and by Jean-Marie Lehn Foundation. The authors wish to thank Cathy Royer from the “Plateforme Imagerie In Vitro de l'ITI Neurostra” CNRS UAR 3156, University of Strasbourg (Strasbourg, France) for TEM analysis, Dr. Dris Ihiawakrim from the Transmission Electron Microscopy Platform at the IPCMS (Strasbourg, France) for the HRTEM analyses. YH is indebted to the Chinese Scholarship Council for supporting the PhD internship. MAL acknowledges the Generalitat Valenciana for a postdoctoral fellowship (CIAPOS/2021/255). The authors gratefully acknowledge the financial support from the EU Graphene Flagship project (no. 881603). GCQDS, CG, and PP are grateful to the University of Trieste for financial support and to CINECA national computing center for computational resources through the ISCRA initiative. XQ, HG and AB acknowledge the PHC Merlion 2023 program (project number 49627WG), the support given by the French Ministry of Europe and Foreign Affairs (MEAE) and the Nanyang Technological University. XQ and HG acknowledge support from the Singapore Ministry of Education (MOE) under T1 Award #RG138/20, #RG135/22, and a start-up grant from Nanyang Technological University, Singapore and A*STAR, Singapore. Molecular dynamics simulations reported were performed on resources provided by the High Performance Computing Centre at Nanyang Technological University, Singapore, the National Supercomputing Centre, Singapore (https://www.nscc.sg), the SISSA Computing Center (https://www.sissa.it), and the National Supercomputing Center, Italy (https://www.hpc.cineca.it/). CMM and BR thank the Ministries of Europe and Foreign Affairs (MEAE) and of Higher Education and Research (MESR) for their support through the PHC GALILEE 2022 program (project number 47791TD & G22_121). The authors are indebted to Haijun Peng and Paolo Samorì for their help in XRD analyses. 2024-03-26T01:14:01Z 2024-03-26T01:14:01Z 2024 Journal Article He, Y., Qian, X., da Silva, G. C. Q., Gabellini, C., Lucherelli, M. A., Biagiotti, G., Richichi, B., Ménard-Moyon, C., Gao, H., Posocco, P. & Bianco, A. (2024). Unveiling liquid-phase exfoliation of graphite and boronnitride using fluorescent dyes through combinedexperiments and simulations. Small. https://dx.doi.org/10.1002/smll.202307817 1613-6810 https://hdl.handle.net/10356/174290 10.1002/smll.202307817 38267819 2-s2.0-85182990579 en RG138/20 RG135/22 NTU-SUG Small © 2024 Wiley-VCH GmbH. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1002/smll.202307817. application/pdf |