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Quantitative Nanoplasmonics
ACS Central Science ( IF 12.7 ) Pub Date : 2018-08-29 00:00:00 , DOI: 10.1021/acscentsci.8b00423 Jeong-Eun Park 1 , Yoonjae Jung 1 , Minho Kim 1 , Jwa-Min Nam 1
ACS Central Science ( IF 12.7 ) Pub Date : 2018-08-29 00:00:00 , DOI: 10.1021/acscentsci.8b00423 Jeong-Eun Park 1 , Yoonjae Jung 1 , Minho Kim 1 , Jwa-Min Nam 1
Affiliation
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Plasmonics, the study of the interactions between photons and collective oscillations of electrons, has seen tremendous advances during the past decade. Controllable nanometer- and sub-nanometer-scale engineering in plasmonic resonance and electromagnetic field localization at the subwavelength scale have propelled diverse studies in optics, materials science, chemistry, biotechnology, energy science, and various applications in spectroscopy. However, for translation of these accomplishments from research into practice, major hurdles including low reproducibility and poor controllability in target structures must be overcome, particularly for reliable quantification of plasmonic signals and functionalities. This Outlook introduces and summarizes the recent attempts and findings of many groups toward more quantitative and reliable nanoplasmonics, and discusses the challenges and possible future directions.
中文翻译:
定量纳米等离子体
等离子体技术是对光子与电子集体振动之间相互作用的研究,在过去的十年中取得了巨大的进步。可控的纳米和亚纳米规模的等离子共振和亚波长规模的电磁场定位工程推动了光学,材料科学,化学,生物技术,能源科学以及光谱学中各种应用的各种研究。然而,为了将这些成就从研究转化为实践,必须克服主要障碍,包括低重复性和靶结构可控性差,特别是对等离激元信号和功能的可靠定量。本展望介绍并总结了许多研究小组在更定量,更可靠的纳米等离子体技术方面的最新尝试和发现,
更新日期:2018-08-29
中文翻译:
定量纳米等离子体
等离子体技术是对光子与电子集体振动之间相互作用的研究,在过去的十年中取得了巨大的进步。可控的纳米和亚纳米规模的等离子共振和亚波长规模的电磁场定位工程推动了光学,材料科学,化学,生物技术,能源科学以及光谱学中各种应用的各种研究。然而,为了将这些成就从研究转化为实践,必须克服主要障碍,包括低重复性和靶结构可控性差,特别是对等离激元信号和功能的可靠定量。本展望介绍并总结了许多研究小组在更定量,更可靠的纳米等离子体技术方面的最新尝试和发现,
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