2017
DOI: 10.1038/s41467-017-02268-8
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Tuning the interactions between chiral plasmonic films and living cells

Abstract: Designing chiral materials to manipulate the biological activities of cells has been an important area not only in chemistry and material science, but also in cell biology and biomedicine. Here, we introduce monolayer plasmonic chiral Au nanoparticle (NP) films modified with l- or d-penicillamine (Pen) to be developed for cell growth, differentiation, and retrieval. The monolayer films display high chiroptical activity, with circular dichroism values of 3.5 mdeg at 550 nm and 26.8 mdeg at 775 nm. The l-Pen-NP … Show more

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Cited by 110 publications
(81 citation statements)
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“…This important feature was based on the chirality of either chiral ligand‐modified NPs (Au NPs or QDs) or intrinsic chiral nanomaterials that could be used for chiral recognition . The chiral ligand‐modified NPs used for chiral recognition were adapted to introduce enantiomeric bio‐interaction systems for modulating the morphology of cell growth …”
Section: The Fabrication Of Chiral Nanostructuresmentioning
confidence: 99%
See 2 more Smart Citations
“…This important feature was based on the chirality of either chiral ligand‐modified NPs (Au NPs or QDs) or intrinsic chiral nanomaterials that could be used for chiral recognition . The chiral ligand‐modified NPs used for chiral recognition were adapted to introduce enantiomeric bio‐interaction systems for modulating the morphology of cell growth …”
Section: The Fabrication Of Chiral Nanostructuresmentioning
confidence: 99%
“…C, D) Chiral Au NPs monolayer films for modeling of cell growth, and the corresponding CD and cell morphologies on chiral films. Reproduced with permission . Copyright 2017, the Authors, published by Springer Nature.…”
Section: The Applications In Chirality‐based Biosensorsmentioning
confidence: 99%
See 1 more Smart Citation
“…Further design of conjugating AuNPs with amphiphilic polymers could lead to AuNPs@polymeric micelles, which could further increase the stability of AuNPs as well as provide a unique and tailorable platform to encapsulate pharmaceutical molecules for targeted drug or gene delivery or combined photothermal therapy, and even as theranostic species. Incorporating the polymer backbone with film or hydrogel formation ability could provide a 3D support and tunable control on patterning of AuNPs to satisfy the antibacterial application, development for cell growth, smart carrier for sustained or photothermally controllable therapeutical molecule release at the disease site, which opened a new door for pristine AuNPs in biomedical utilizations. Hence, we strongly believe that polymer–AuNP hybrids could be exploited to be practical biomaterials in various fields such as imaging, controlled release, drug delivery, photothermal cancer therapy, etc.…”
Section: Conclusion and Perspectivementioning
confidence: 99%
“…The significance of chirality phenomenon has been addressed in different fields, including the evolution of life, [ 1,2 ] enantioselectivity in asymmetrical reactions or biointeractions, [ 3 ] and spin polarization selectivity in chiral nanomaterials for spin chemistry and devices. [ 4,5 ] Nanoparticle fabrication technology have been well developed in recent years that provide rich strategy for chiral construction.…”
Section: Introductionmentioning
confidence: 99%