Amplified Production of Singlet Oxygen in Aqueous Solution Using Metal Enhancement Effects

Mooi, Sara M.; Heyne, Belinda

doi:10.1111/php.12176

Cited by 33 publications

(30 citation statements)

References 70 publications

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“…Most photosensitizers (PSs) are highly hydrophobic and require delivery systems. It was showed that GNPs can enhance singlet oxygen generation or photodynamic therapy efficiency of different photosensitizers [23][24][25], which may be due to localized surface plasmon resonance (LSPR) of the metal nanoparticles according to most of the scientists [26,27]. However, our group demonstrated that the cancer cell killing enhancement is mainly due to GNPs' efficient drug delivery [28].…”

Section: Introductionmentioning

confidence: 83%

Gold Nanoparticle Mediated Phototherapy for Cancer

Yao

Zhang

Wang

et al. 2016

Journal of Nanomaterials

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Gold nanoparticles exhibit very unique physiochemical and optical properties, which now are extensively studied in range of medical diagnostic and therapeutic applications. In particular, gold nanoparticles show promise in the advancement of cancer treatments. This review will provide insights into the four different cancer treatments such as photothermal therapy, gold nanoparticle-aided photodynamic therapy, gold nanoparticle-aided radiation therapy, and their use as drug carrier. We also discuss the mechanism of every method and the adverse effects and its limitations.

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Section: Introductionmentioning

confidence: 83%

Gold Nanoparticle Mediated Phototherapy for Cancer

Yao

Zhang

Wang

et al. 2016

Journal of Nanomaterials

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“…Direct catalytic oxidationo fT MB by molecularo xygen is analogous to the oxidasea ctivity.C urrently,f ew oxidasee nzymes are used in ELISAa ssays.C ompared with some reported oxidasem imics (e.g.,C eO 2 nanoparticles [12] ), photosensitizers are advantageous in terms of their reproducibility,s tructural tunability, [13] andm uch smaller size.…”

Section: Photosensitizers As Amolecular Enzyme Mimicmentioning

confidence: 99%

Photosensitization of Molecular Oxygen on Graphene Oxide for Ultrasensitive Signal Amplification

Zhang

Deng

Huang

et al. 2018

Chemistry A European J

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H O and horseradish peroxidase (HRP) are commonly used together in bioassays. HRP is required to accelerate the reaction between a chromogenic substrate (e.g., 3,3',5,5'-tetramethylbenzidine, TMB) and H O , and thus amplifies the signal. Herein, molecular oxygen for enzyme-free and H O -free oxidation is explored, still using the same colorimetric reaction. Restricted by spin selection rules, the ground-state triplet oxygen needs to be converted to the singlet state to oxidize TMB. Phloxine B (PB) is used as the photosensitizer because of its excellent performance and safety. Under green light irradiation, each PB has a turnover of approximately 51 TMB molecules in 20 min, making PB a "molecular enzyme mimic" for signal amplification. With its small size, multiple PB molecules are loaded on a graphene oxide nanosheet to design a modified enzyme-linked immunosorbance (ELISA) assay (termed photosensitization immunosorbent assay, PISA), improving the 1:1 enzyme/target ratio to n:1. PISA is more sensitive for carcinoembryonic antigen than a commercial ELISA kit, and successfully measures the antigen in the serum of multiple cancer patients. This simple and green method of oxidation coupled with the small size of the photosensitizer and graphene oxide may enable many other applications in biosensor development, smart materials, and energy harvesting.

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“…Using this strategy, our group recently reported the synthesis of new multilayer core-shell Ag-silica MNPs onto which a photosensitizer was covalently attached. [138] In our study, a silica shell thickness of about 22 nm afforded the optimal separation between the Ag-core MNPS (68 nm) and the photosensitizer, Rose Bengal. [138] These new MNPs lead to the highest 1 O 2 enhancement factor (ca.…”

Section: Metallic Nanoparticles As Photosensitizer Carriersmentioning

confidence: 99%

“…[138] In our study, a silica shell thickness of about 22 nm afforded the optimal separation between the Ag-core MNPS (68 nm) and the photosensitizer, Rose Bengal. [138] These new MNPs lead to the highest 1 O 2 enhancement factor (ca. 4) ever reported for MNP-photosensitizer systems.…”

Section: Metallic Nanoparticles As Photosensitizer Carriersmentioning

confidence: 99%