Enhancements of Cancer Cell Damage Efficiencies in Photothermal and Photodynamic Processes through Cell Perforation and Preheating with Surface Plasmon Resonance of Gold Nanoring

Hsiao, Jen-Hung; He, Yulu; Yu, Jian-He; Tseng, Po-Chih; Hua, Wei-Hsiang; Low, Meng Chun; Tsai, Yu Lin; Cai, Cheng-Jin; Hsieh, Cheng-Che; Kiang, Yean‐Woei; Yang, Chih-Chung; Zhang, Zhengxi

doi:10.3390/molecules23123157

Cited by 4 publications

(1 citation statement)

References 31 publications

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“…Moreover, metallic nanostructures have been developed for plasmonic biosensors. The nanofabrication of novel metallic nanostructures, for instance, nano-ring, suggests its applications for a plasmonic biosensor [4][5][6][7]. Gold micro-/nano-ring structures are expected to provide basic implemented feasible structures for plasmonic biosensing with excellent detection performance [8].…”

Section: Introductionmentioning

confidence: 99%

Fabrication of Metallic Nano-Ring Structures by Soft Stamping with the Thermal Uplifting Method

2022

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In this study, the unconventional microfabrication method by the combined processes of the chemical soft stamping technique with the thermal uplifting technique to fabricate metal nanoarrays on a glass plate is proposed and their feasibility verified. The gold micro-ring arrays on a quartz glass plate are realized by utilizing a chemical template with the thermal uplifting method. Their optical properties are studied experimentally. First, a plastic mold is made of a Biaxially Oriented Polyethylene Terephthalate (BOPET) via the hot embossing method. Then, the Methanal micropatterns are transferred onto an etched surface of a substrate via a soft stamping process with a BOPET mold. The gold thin film is coated onto the methanol patterned glass plate via the Ar+ sputter coating process. Finally, the metallic micro-ring structures are aggregated on a glass plate via the thermal uplifting technique. The LSPR optical properties as the extinction spectrums of the gold micro-ring structure arrays are investigated experimentally. It is confirmed that this method was able to fabricate plasmonic micro-ring arrays with low cost and high throughput.

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Section: Introductionmentioning

confidence: 99%

Fabrication of Metallic Nano-Ring Structures by Soft Stamping with the Thermal Uplifting Method

2022

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New progress in tumor treatment based on nanoparticles combined with irreversible electroporation

et al. 2022

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Nanoknife is a new tumor ablation technology. It forms nano permanent perforation on tumor cells by releasing high-voltage pulses, destroying the intracellular balance and making cells apoptosis rapidly. So nano knife is also known as irreversible electroporation (IRE). IRE ablation technology and nanoparticles (NPs) have unique advantages in tumor treatment. Relevant studies have confirmed that NPs can enhance the effect of IRE ablation, expand the ablation boundary and reduce the threshold intensity of tumor cell perforation. Moreover, IRE combined with the drug-loaded NPs can synergize tumor immunotherapy. Thus, the combination of NPs and IRE has broad research prospects. This paper reviews the mechanism of tumor treatment with NPs combined with IRE and discusses the future challenges and opportunities of combining these two technologies.

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Local release and isolation of circulating tumor cells captured by the nano-morphologic substrate coated with gelatin under near-infrared light

et al. 2021

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Enhancements of Cancer Cell Damage Efficiencies in Photothermal and Photodynamic Processes through Cell Perforation and Preheating with Surface Plasmon Resonance of Gold Nanoring

Cited by 4 publications

References 31 publications

Fabrication of Metallic Nano-Ring Structures by Soft Stamping with the Thermal Uplifting Method

Fabrication of Metallic Nano-Ring Structures by Soft Stamping with the Thermal Uplifting Method

New progress in tumor treatment based on nanoparticles combined with irreversible electroporation

Local release and isolation of circulating tumor cells captured by the nano-morphologic substrate coated with gelatin under near-infrared light

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