Plasmonically Modulated Gold Nanostructures for Photothermal Ablation of Bacteria

Guan, Guijian; Win, Khin Yin; Yang, Wensheng; Han, Ming‐Yong

doi:10.1002/adhm.202001158

Cited by 68 publications

(38 citation statements)

References 293 publications

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“…Under NIR irradiation, [poly( d , l -lactide)-poly(ethylene glycol)-poly( d , l -lactide)/black phosphorus (BP) hydrogel undergo a sol-gel transition at 46.5 °C after only 20 s [ 37 ]. Hyperthermia (>50 °C) could destroy the integrity of bacterial cell membranes, cause protein denaturation, and finally kill bacteria [ 38 ]. Hyperthermia caused by long-term exposure to NIR laser can also result in irreversible damage to normal tissues.…”

Section: Introductionmentioning

confidence: 99%

A Review on Hydrogels with Photothermal Effect in Wound Healing and Bone Tissue Engineering

Zhang

Tan

et al. 2021

Polymers

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Photothermal treatment (PTT) is a promising strategy to deal with multidrug-resistant bacteria infection and promote tissue regeneration. Previous studies demonstrated that hyperthermia can effectively inhibit the growth of bacteria, whereas mild heat can promote cell proliferation, further accelerating wound healing and bone regeneration. Especially, hydrogels with photothermal properties could achieve remotely controlled drug release. In this review, we introduce a photothermal agent hybrid in hydrogels for a photothermal effect. We also summarize the potential mechanisms of photothermal hydrogels regarding antibacterial action, angiogenesis, and osteogenesis. Furthermore, recent developments in photothermal hydrogels in wound healing and bone regeneration applications are introduced. Finally, future application of photothermal hydrogels is discussed. Hydrogels with photothermal effects provide a new direction for wound healing and bone regeneration, and this review will give a reference for the tissue engineering.

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Section: Introductionmentioning

confidence: 99%

A Review on Hydrogels with Photothermal Effect in Wound Healing and Bone Tissue Engineering

Zhang

Tan

et al. 2021

Polymers

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“…A number of biologically relevant linkers can be conjugated to the surface of gold nanoparticles including antibodies (S. Lee et al, 2009), peptides (J. H. Lee et al, 2017), and oligonucleotides (Luo et al, 2019) allowing particles to bind in close proximity to diseased tissue (Luo et al, 2019; You et al, 2014). Additionally, gold nanoparticles exhibit strong photothermal effects by efficiently converting light into heat through electron–phonon coupling (Guan et al, 2020). They can also enhance local electromagnetic fields that are important for applications such as surface enhanced Raman scattering (SERS) (Ren et al, 2013).…”

Section: Introductionmentioning

confidence: 99%

Structural control and biomedical applications of plasmonic hollow gold nanospheres: A mini review

Guarino-Hotz

Zhang

2021

WIREs Nanomed Nanobiotechnol

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Hollow gold nanospheres (HGNs) are core/shell structures with a dielectric material core, usually composed of solvent, and a gold metal shell. Such structures have two metal/dielectric interfaces to allow interaction between the gold metal with the interior and external dielectric environment. Upon illumination by light, HGNs exhibit unique surface plasmon resonance (SPR) properties compared to solid gold nanoparticles. Their SPR absorption/scattering can be tuned by changing their diameter, shell thicknesses, and surface morphologies. In addition to the low toxicity, easy functionalization, resistance to photobleaching, and sensitivity to changes in surrounding medium of gold, the enhanced surface‐to‐volume ratio and tunable SPR of HGNs make them highly attractive for different applications in the fields of sensing, therapy, and theranostics. In this article, we review recent progress on the synthesis and structural control of HGNs and applications of their SPR properties in biomedical sensing and theranostics. This article is categorized under: Diagnostic Tools > Biosensing Diagnostic Tools > in vitro Nanoparticle‐Based Sensing Diagnostic Tools > in vivo Nanodiagnostics and Imaging

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“… 48 In addition, PVP is known to stabilize the {111} crystal plane of Au nanocrystals by binding preferentially to the {111} facet over the Au nanocrystals' other facets. 58 Therefore, in the presence of PVP, forming a plate structure having {111} surfaces as top and bottom surfaces is advantageous. However, because the amount of PVP is insufficient, PVP cannot provide adequate protection against crystal growth, which leads to stacking of the as-synthesized nanoplates and to the eventual formation of rose-shaped nanostructures.…”

Section: Resultsmentioning

confidence: 99%

Completely green synthesis of rose-shaped Au nanostructures and their catalytic applications

et al. 2021

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Plasmonically Modulated Gold Nanostructures for Photothermal Ablation of Bacteria

Cited by 68 publications

References 293 publications

A Review on Hydrogels with Photothermal Effect in Wound Healing and Bone Tissue Engineering

A Review on Hydrogels with Photothermal Effect in Wound Healing and Bone Tissue Engineering

Structural control and biomedical applications of plasmonic hollow gold nanospheres: A mini review

Completely green synthesis of rose-shaped Au nanostructures and their catalytic applications

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