Recent advances in luminescence properties of lanthanide-doped up-conversion nanocrystals and applications for bio-imaging, drug delivery, and optosensing

Chung, Jong Won; Gerelkhuu, Zayakhuu; Oh, Ju Hyun; Lee, Yong‐Ill

doi:10.1080/05704928.2016.1167070

Cited by 56 publications

(25 citation statements)

References 132 publications

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“…(b)). The mechanism of this process can be found elsewhere . On the contrary, these peaks were not observed for the TiO 2 , and TiO 2 –Ce 0.14 samples.…”

Section: Resultsmentioning

confidence: 81%

“…In the case of TiO 2 –Er 0.15 Yb 0.15 and TiO 2 –Er 0.15 Yb 0.15 Ce 0.14 , the bands at 522 and 655 nm relate with 4 I 15/2 → 4 F 7/2 , 4 I 15/2 → 2 H 11/2 and 4 I 15/2 → 4 F 9/2 transitions of Er 3+ . The broad band at 982 nm originates from 2 F 7/2 → 2 F 5/2 transition of Yb 3+ . The appearance of these bands exhibited that Yb 3+ and Er 3+ have been successfully incorporated in TiO 2 .…”

Section: Resultsmentioning

confidence: 95%

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Photocatalytic activity of Yb, Er, Ce‐codoped TiO₂ for degradation of Rhodamine B and 4‐chlorophenol

Paeng

Phượng

Dao

et al. 2019

J of Chemical Tech & Biotech

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BACKGROUND Photodegradation through an advanced oxidation process gives promising prospects for environmental protection. Although titanium dioxide (TiO2) is considered as an excellent photonic material candidate, however, the band gap of TiO2 is 3.2 eV which limits its effective applications. Various approaches have been developed for enhancing the utilization of TiO2 such as coupling with other narrow bandgap semiconductors and metal ions. We developed a novel ytterbium (Yb), erbium (Er), cerium (Ce)‐codoped TiO2 material as a high‐performance photocatalyst for efficient degradation of Rhodamine B (RhB) and 4‐chlorophenol (4‐CP) by hydrothermal technique. Yb, Er, and Ce ions served as electron collectors for the interfacial electrons transferred from TiO2, thus enhancing the separation of the photo‐induced electron–hole pairs. RESULTS The photocatalytic activity of the prepared TiO2–Er0.15Yb0.15Ce0.14 sample is higher than those of undoped TiO2, TiO2–Ce0.3 and TiO2–Er0.15Yb0.15 samples under optimal condition. Our developed catalyst degraded 98% of 0.04 mM RhB and 95% of 0.6 mM 4‐CP under white light irradiation for 60 and 240 min, respectively. Moreover, a probable photodegradation mechanism is proposed. CONCLUSION TiO2–Er0.15Yb0.15Ce0.14 with high photocatalytic degradation efficiency under white light irradiation was synthesized by a hydrothermal method. Yb3+, Er3+, Ce4+ played a role as photo‐induced electron collectors to suppress the recombination of photo‐induced electron–hole pairs. The synthesized material has a high potential as an efficient photocatalyst for toxic pollutants in aqueous media. © 2019 Society of Chemical Industry

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“…(b)). The mechanism of this process can be found elsewhere . On the contrary, these peaks were not observed for the TiO 2 , and TiO 2 –Ce 0.14 samples.…”

Section: Resultsmentioning

confidence: 81%

Section: Resultsmentioning

confidence: 95%

Photocatalytic activity of Yb, Er, Ce‐codoped TiO₂ for degradation of Rhodamine B and 4‐chlorophenol

Paeng

Phượng

Dao

et al. 2019

J of Chemical Tech & Biotech

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“…Элементарные процессы, участвующие в формировании ап-конверсионной (или антистоксовой) люминесценции, включают оптическое поглощение возбуждающего света ионами как в основном, так и в возбужденном состояниях, излучательные и безызлучательные распады и процессы передачи энергии [24][25][26]65,66]. Процессы передачи энергии, известные под названием " миграция или диффузия энергии", могут происходить как между различными ионами, так и между одним и тем же видом ионов.…”

Section: ап-конверсионная люминесценция рзи в нанокристаллахunclassified

“…В настоящее время применение неорганических наночастиц в качестве биомедицинских зондов представляет значительный интерес вследствие их уникальных оптических и магнитных свойств. Визуализация in vivo с использованием наночастиц, легированных РЗИ, пред-лагает новые возможности для морфологических исследований и, таким образом, является мощным неинвазивным инструментом для исследования широкого спектра биологических процессов [5][6][7][8][9][10][11][15][16][17]22,23,[26][27][28][29].…”

Section: применение наночастиц допированных рзи для исследований Inunclassified

“…За последние годы было опубликовано большое количество работ, посвященных синтезу и исследованию свойств люминесцентных наночастиц, допированных РЗИ. Необходимо подчеркнуть, что в литературе есть подробные обзоры, посвященные исследованию люминесцентнооптических свойств наночастиц, описанию технологий их химического синтеза и потенциальных биомедицинских применений in vivo наночастиц, легированных РЗИ [5][6][7][8][9][10][11][13][14][15][16][18][19][20][21][22][23][24][25][26][27][28][29][30][31][32][33][34][35][36]. В то же время существует ограниченное число работ, посвященных обзору биолюминесцентных методов диагностики in vitro с использованием неорганических наночастиц, активированных РЗИ [4,6,11,22].…”

Section: Introductionunclassified

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Люминесцентные Наноматериалы, Допированные Редкоземельными Ионами, И Перспективы Их Биомедицинского Применения (Обзор)

Бажукова¹,

Пустоваров²,

Мышкина³

et al. 2020

Журнал Технической Физики

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Luminescent nanomaterials doped with rare-earth elements are characterized by such physicochemical properties as long-lived luminescence, large Stokes or anti-Stokes shifts, narrow emission bands, high photostability and low toxicity. These materials can be considered as a new generation of biosensors along with conventional molecular probes, such as organic dyes, quantum dots and chelate-based lanthanide probes. In recent years there has been significant interest in the study of functional nanomaterials based on rare earth elements. The purpose of this paper is to provide an overview of recent advances in the development of luminescent inorganic nanoparticles doped with rare earth elements which could be used for biomedical applications.

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Modern Luminescent Technologies Embraced in Food Science and Engineering

Adak,

Bishai

2024

Nonthermal Food Processing, Safety, and Preservation

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Recent advances in luminescence properties of lanthanide-doped up-conversion nanocrystals and applications for bio-imaging, drug delivery, and optosensing

Cited by 56 publications

References 132 publications

Photocatalytic activity of Yb, Er, Ce‐codoped TiO₂ for degradation of Rhodamine B and 4‐chlorophenol

Photocatalytic activity of Yb, Er, Ce‐codoped TiO₂ for degradation of Rhodamine B and 4‐chlorophenol

Люминесцентные Наноматериалы, Допированные Редкоземельными Ионами, И Перспективы Их Биомедицинского Применения (Обзор)

Modern Luminescent Technologies Embraced in Food Science and Engineering

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Recent advances in luminescence properties of lanthanide-doped up-conversion nanocrystals and applications for bio-imaging, drug delivery, and optosensing

Cited by 56 publications

References 132 publications

Photocatalytic activity of Yb, Er, Ce‐codoped TiO2 for degradation of Rhodamine B and 4‐chlorophenol

Photocatalytic activity of Yb, Er, Ce‐codoped TiO2 for degradation of Rhodamine B and 4‐chlorophenol

Люминесцентные Наноматериалы, Допированные Редкоземельными Ионами, И Перспективы Их Биомедицинского Применения (Обзор)

Modern Luminescent Technologies Embraced in Food Science and Engineering

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Photocatalytic activity of Yb, Er, Ce‐codoped TiO₂ for degradation of Rhodamine B and 4‐chlorophenol

Photocatalytic activity of Yb, Er, Ce‐codoped TiO₂ for degradation of Rhodamine B and 4‐chlorophenol