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401.
Dr. Vinh X. Truong Dr. Katharina Ehrmann Maximilian Seifermann Prof. Dr. Pavel A. Levkin Prof. Dr. Christopher Barner-Kowollik 《Chemistry (Weinheim an der Bergstrasse, Germany)》2022,28(25):e202104466
The ability of light to remotely control the properties of soft matter materials in a dynamic fashion has fascinated material scientists and photochemists for decades. However, only recently has our ability to map photochemical reactivity in a finely wavelength resolved fashion allowed for different colors of light to independently control the material properties of polymer networks with high precision, driven by monochromatic irradiation enabling orthogonal reaction control. The current concept article highlights the progress in visible light-induced photochemistry and explores how it has enabled the design of polymer networks with dynamically adjustable properties. We will explore current applications ranging from dynamic hydrogel design to the light-driven adaptation of 3D printed structures on the macro- and micro-scale. While the alternation of mechanical properties via remote control is largely reality for soft matter materials, we herein propose the next frontiers for adaptive properties, including remote switching between conductive and non-conductive properties, hydrophobic and hydrophilic surfaces, fluorescent or non-fluorescent, and cell adhesive vs. cell repellent properties. 相似文献
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As a proof of concept, we demonstrate in this preliminary study that 3O2 could be used as magnetic Contrast Agent (CA) to monitor photodynamic treatments (PDT). In this purpose, and using a well-studied Photo-Sensitizer (PS) from our team ( Ruteg ), we highlighted that the combined action of the PS and irradiation led to significant changes in T1 (and R1) values of the protons of the water molecules. We assume that with these conclusive results using relaxometric measurements, transposition to Magnetic Resonance Imaging (MRI) in pertinent conditions (oxygen concentration, magnetic field) should be achievable. 相似文献
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Mohamed E. El‐Zaria Prof. Dr. Hyun Seung Ban Dr. Hiroyuki Nakamura Prof. Dr. 《Chemistry (Weinheim an der Bergstrasse, Germany)》2010,16(5):1543-1552
A novel series of boronated porphyrins for potential use in boron neutron capture therapy (BNCT) and photodynamic therapy (PDT) for tumor suppression is described. Protoporphyrin IX {i.e., bis(α‐methyl‐β‐pentylethylether)protoporphyrin IX, and bis(α‐methyl‐β‐dodecanylethylether)protoporphyrin IX} bearing polyhedral borane anions (B12H11SH2?, B12H11NH3?, or B12H11OH2?) were synthesized with reasonable yields. Modification of the protoporphyrin IX structure was achieved by variation of the lengths of the alkyl chains (pentyl and dodecanyl) attached through ether linkages to the former vinyl groups. The goal of this modification was to develop boronated porphyrins with chemical and physical properties that differed from those of protoporphyrin IX. Performance of an MTT assay with each derivative revealed that the synthesized boronated porphyrins showed low cytotoxicities in a variety of cancer cells. Of these compounds, B12H11NH22?‐conjugated porphyrin induced a significant increase in the level of boron accumulation and PDT efficacy against HeLa cells. 相似文献
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稀土上转换发光纳米材料的应用 总被引:1,自引:0,他引:1
稀土上转换发光纳米材料(简称UCNPs)不仅光稳定性强、发射带窄、荧光寿命长、化学稳定性高、潜在生物毒性低,而且采用近红外连续激发光源激发还使其具有较大的光穿透深度、无光闪烁和光漂白、无生物组织自发荧光以及对生物组织几乎无损伤等显著优点,已经成为当前很多领域乃至交叉科学的应用研究热点。由于氟化物基质的UCNPs具有较高的发光效率,本文首先归纳总结了近年来氟化物UCNPs的主要合成及表面改性方法,然后重点综述了近年来UCNPs在免疫分析及生物传感、生物成像、载药、光动力理疗及热致理疗、光导开关和信息存储以及太阳能电池等方面的研究与应用进展。 相似文献
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Can T. Xu Qiuqiang Zhan Haichun Liu Gabriel Somesfalean Jun Qian Sailing He Stefan Andersson‐Engels 《Laser \u0026amp; Photonics Reviews》2013,7(5):663-697
Upconverting nanoparticles (UCNPs) are a class of recently developed luminescent biomarkers that – in several aspects – are superior to organic dyes and quantum dots. UCNPs can emit spectrally narrow anti‐Stokes shifted light with quantum yields which greatly exceed those of two‐photon dyes for fluence rates relevant for deep tissue imaging. Compared with conventionally used Stokes‐shifting fluorophores, UCNP‐based imaging systems can acquire completely autofluorescence‐free data with superb contrast. For diffuse optical imaging, the multi‐photon process involved in the upconversion process can be used to obtain images with unprecedented resolution. These unique properties make UCNPs extremely attractive in the field of biophotonics. UCNPs have already been applied in microscopy, small‐animal imaging, multi‐modal imaging, highly sensitive bioassays, temperature sensing and photodynamic therapy. In this review, the current state‐of‐the‐art UCNPs and their applications for diffuse imaging, microscopy and sensing targeted towards solving essential biological issues are discussed. 相似文献