Vesikel in der Natur und im Labor: die Aufklärung der biologischen Eigenschaften und die Synthese zunehmend komplexer synthetischer Vesikel

Fernández-Trillo, Francisco; Grover, Liam M.; Stephenson-Brown, Alex; Harrison, Paul; Mendes, Paula M.

doi:10.1002/ange.201607825

Cited by 10 publications

(1 citation statement)

References 212 publications

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“…Moreover, metalorganic frameworks containing porphyrin linkers were presented . For medical application, in particular, encapsulation in vesicles and liposomes or functionalization with hydrophilic capping ligands was established . However, these measures also enhance the material complexity, and any encapsulation/capping, as a matter of fact, blocks the active sites of the photocatalysts.…”

Section: Specific Properties Of Inorganic‐organic Hybrid Nanoparticlementioning

confidence: 99%

Fluorescent Inorganic‐Organic Hybrid Nanoparticles

et al. 2018

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Inorganic-organic hybrid nanoparticles (IOH-NPs) with a general composition [ZrO] 2 + [R Dye OPO 3 ] 2À , [Ln] 3 + n/3 [R Dye (SO 3 ) n ] nÀ , [Ln(OH)] 2 + n/2 [R Dye (SO 3 ) n ] nÀ , or [LnO] + n [R Dye (SO 3 ) n ] nÀ (Ln: lanthanide) are a novel class of nanomaterials for fluorescence detection and optical imaging. IOH-NPs are characterized by an extremely high load of the fluorescent dye (70-85 wt-%), high photochemical stability, straightforward aqueous synthesis, low material complexity, intense emission and high cell uptake at low toxicity. Besides fullcolor emission, IOH-NPs are suitable for multimodal imaging, singlet-oxygen generation as well as drug delivery and drug release. This focus review presents the material concept of the IOH-NPs as well as their synthesis and characterization. Their characteristic features are illustrated by selected in vitro and in vivo studies to initiate application in biology and medicine.[a] B.

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Section: Specific Properties Of Inorganic‐organic Hybrid Nanoparticlementioning

confidence: 99%

Fluorescent Inorganic‐Organic Hybrid Nanoparticles

et al. 2018

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Development of a Minimal Photosystem for Hydrogen Production in Inorganic Chemical Cells

et al. 2018

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Inorganic chemical cells (iCHELLs) are compartment structures consisting of polyoxometalates (POMs) and cations,o ffering structured and confined reaction spaces bounded by membranes.Wehave constructed asystem capable of efficient anisotropic and hierarchical photo-induced electron transfer across the iCHELL membrane.M imicking photosynthesis,o ur system uses proton gradients between the compartment and the bulk to drive efficient conversion of light into chemical energy,p roducing hydrogen upon irradiation. This illustrates the power of the iCHELL approach for catalysis,w here the structure,c ompartmentalisation and variation in possible components could be utilised to approach aw ide range of reactions.Photosynthesis is the process by which plants and other organisms convert solar energy to chemical energy.

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Spontaneous Membrane Generation and Extension in a Dipeptide Single Crystal and Phospholipid Mixed System

2018

Angewandte Chemie

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Self‐reproduction is one of the most important characteristics of lipid vesicles for origin of life research. Most vesicle self‐reproduction systems are based on fatty acid vesicles and spontaneous phospholipid vesicle production is difficult owing to the relatively high stability of these vesicles. Now, spontaneous phospholipid vesicle generation and extension in a dipeptide/phospholipid system is demonstrated. Dissolution of the dipeptide crystal provides both the driving force and phospholipid constituents for vesicle generation and extension. This study provides a new system to enhance the understanding of vesicle self‐reproduction mechanisms.

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Vesikel in der Natur und im Labor: die Aufklärung der biologischen Eigenschaften und die Synthese zunehmend komplexer synthetischer Vesikel

Cited by 10 publications

References 212 publications

Fluorescent Inorganic‐Organic Hybrid Nanoparticles

Fluorescent Inorganic‐Organic Hybrid Nanoparticles

Development of a Minimal Photosystem for Hydrogen Production in Inorganic Chemical Cells

Spontaneous Membrane Generation and Extension in a Dipeptide Single Crystal and Phospholipid Mixed System

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