A General Strategy to Encapsulate Semiconducting Polymers within PEGylated Mesoporous Silica Nanoparticles for Optical Imaging and Drug Delivery

Lu, Feng; Chen, Zhan; Gong, Yi; Tang, Yufu; Xie, Chen; Wang, Qi; Wang, Wenjun; Fan, Quli; Huang, Wei

doi:10.1002/ppsc.201900483

Cited by 8 publications

(2 citation statements)

References 60 publications

(74 reference statements)

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“…Lu et al have developed a general synthesis of conjugated polymer nanoparticles encapsulated in mesoporous silica with a PEGylated surface and a well-defined particle size and shape. 43 This was achieved by initially phase transferring the hydrophobic polymers to water using a simple surfactant, cetyltrimethyl ammonium bromide (CTAB), forming nanoparticles. Onto these seeds, tetraethyl orthosilicate was hydrolysed, followed by the condensation of further silica, the pores of which were directed by the CTAB, resulting in mesoporous particles.…”

Section: Introductionmentioning

confidence: 99%

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Infrared emitting and absorbing conjugated polymer nanoparticles as biological imaging probes

2023

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Section: Introductionmentioning

confidence: 99%

“…(E) Absorption spectra of polymer. (F) Emission spectra of polymer 43. Images used with permission from John Wiley and Sons.…”

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Infrared emitting and absorbing conjugated polymer nanoparticles as biological imaging probes

2023

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Rational Design of NIR‐II Emitting Conjugated Polymer Derived Nanoparticles for Image‐Guided Cancer Interventions

Gill,

Srivastava,

Tropp

2024

Adv Healthcare Materials

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Due to the reduced absorption, light scattering, and tissue autofluorescence in the NIR‐II (1000–1700 nm) region, significant efforts are underway to explore diverse material platforms for in vivo fluorescence imaging, particularly for cancer diagnostics and image‐guided interventions. Of the reported imaging agents, nanoparticles derived from conjugated polymers (CPNs) offer unique advantages to alternative materials including biocompatibility, remarkable absorption cross‐sections, exceptional photostability, and tunable emission behavior independent of cell labeling functionalities. Herein we summarize the current state of NIR‐II emitting CPNs and highlight structure‐function‐property relationships that can be used to elevate the performance of next‐generation CPNs. Methods for particle processing and incorporating cancer targeting modalities are discussed, as well as detailed characterization methods to improve interlaboratory comparisons of novel materials. We then highlight contemporary methods to specifically apply CPNs for cancer diagnostics and therapies. This review not only summarizes the current state of the field, but offers future directions and provides clarity to the advantages of CPNs over other classes of imaging agents.This article is protected by copyright. All rights reserved

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Silica−polymer hybrid nanoparticles for drug delivery and bioimaging

Bagheri

Naserifar

Ramezani

et al. 2022

Hybrid Nanomaterials for Drug Delivery

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A General Strategy to Encapsulate Semiconducting Polymers within PEGylated Mesoporous Silica Nanoparticles for Optical Imaging and Drug Delivery

Cited by 8 publications

References 60 publications

Infrared emitting and absorbing conjugated polymer nanoparticles as biological imaging probes

Infrared emitting and absorbing conjugated polymer nanoparticles as biological imaging probes

Rational Design of NIR‐II Emitting Conjugated Polymer Derived Nanoparticles for Image‐Guided Cancer Interventions

Silica−polymer hybrid nanoparticles for drug delivery and bioimaging

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