Synthesis of Polyphosphazene with Pendent Perfluorobutylsulfonylimide Group

Zhang, Zheng‐Bo; Wang, Xin‐Zeng; Nie, Jun

doi:10.1002/cjoc.200690001

Cited by 3 publications

(5 citation statements)

References 22 publications

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“…Under acidic condition, the Ti 4+ mainly exist as the chemical state of TiO 2+ which can react with H 2 O 2 to form [TiO(H 2 O 2 )] 2+ complex in yellow color [21]. The experimental results indicate that the gold nanoparticles would not aggregate in …”

Section: Resultsmentioning

confidence: 93%

“…When the complex was in a concentration range where enhanced scattering was observed, the complex might aggregated with gold nanoparticles to form a bigger particle clusters in a loose binding manner [23], which then increased the scattering intensity. [21]. The results were listed in Table 3.…”

Section: Reasons Of Enhanced Sprsmentioning

confidence: 98%

“…Using same system, 1.0-18 μg/m H 2 O 2 can be determined spectrophotometrically. The sensitivity of the SPRS method was increased 400 times, comparing with the H 2 O 2 -Ti(SO 4 ) 2 spectrophotometric method [21]. In addition, 30-and 40-nm gold nanoparticles were considered for the detection of H 2 O 2 .…”

Section: Calibration Curvementioning

confidence: 99%

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A Simple and Sensitive SPRS Method for Trace H2O2 Based on the TiO2+ Complex and Gold Nanoparticles Aggregation Reactions

2009

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In the medium of H 2 SO 4 and in the presence of TiO 2+ , gold nanoparticles in size of 10 nm exhibited a weak surface plasmon resonance scattering (SPRS) peak at 775 nm. Upon addition of trace H 2 O 2 , the yellow complex [TiO(H 2 O 2 )] 2+ formed that cause the gold nanoparticles aggregations to form bigger gold nanoparticle clusters in size of about 900 nm, and the SPRS intensity at 775 nm (I) enhanced greatly. The enhanced intensity ΔI was linear to the H 2 O 2 concentration in the range of 0.025-48.7 μg/mL, with a detection limit of 0.014 μg/mL H 2 O 2 . This SPRS method was applied to determining H 2 O 2 in water samples with satisfactory results.

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Section: Resultsmentioning

confidence: 93%

Section: Reasons Of Enhanced Sprsmentioning

confidence: 98%

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A Simple and Sensitive SPRS Method for Trace H2O2 Based on the TiO2+ Complex and Gold Nanoparticles Aggregation Reactions

2009

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“…Emulsions are primarily classified into three different categories based on droplet size, i.e., macroemulsions (droplet size: 1–100 µm), nanoemulsions (droplet size: 20–500 nm), and microemulsions (droplet size: 10–100 nm) 1. Many efforts are being made to tailor the DSD according to product requirements by using different emulsion preparation techniques and equipment, e.g., hydrodynamic cavitation 2–8, ultrasonication 9, 10, impeller‐agitated vessels 11–13, membranes and microchannels 14, rotor‐stators 1, 15, 16, high‐pressure homogenizers 6, 7, and colloid mills 17, 18. The major drawbacks are the higher energy requirements of impeller‐agitated vessels and rotor‐stators and difficulties in scale‐up for ultrasonication, membranes, and microchannels.…”

Section: Introductionmentioning

confidence: 99%

“…A few articles are available on generating emulsions using linear flow HC devices 2, 3, 5–8, 20. However, the need for high inlet pressures (ca.…”

Section: Introductionmentioning

confidence: 99%

Liquid‐Liquid Emulsion Produced by 3D‐Printed Vortex‐Based Hydrodynamic Cavitation Device

et al. 2023

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3D-printed vortex-based devices have shown excellent performance in realizing hydrodynamic cavitation (HC) and have opened up new ways of effectively producing oil-in-water emulsions via cavitation. In this work, the performance of machined and 3D-printed vortex-based HC devices for producing liquid-liquid emulsions was compared in terms of droplet breakage efficiency and energy consumption per kilogram of emulsion. The Euler numbers of 3D-printed and VMCmachined HC devices were 42 and 48, respectively. The differences in droplet size distribution and other characteristic diameters were insignificant after 50 passes.The present work confirms the potential of harnessing 3D printing technology for fabricating HC devices and can facilitate development of new device designs to improve overall emulsification performance.

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N-Demethylation of Alkaloids

Thavaneswaran

McCamley

Scammells

2006

Natural Product Communications

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The removal of an N-methyl group, or N-demethylation, is a useful chemical transformation in organic synthesis which has particular importance in the field of alkaloid chemistry. Historically, tertiary N-methyl alkaloids have been N-demethylated using the same methods as for N-dealkylating tertiary amines. Such methodologies have included the von Braun reaction, the use of chloroformate and azodicarboxylate reagents and the Polonovski reaction, amongst others. Photochemical and biochemical procedures have also been successfully employed. This review will examine these N-demethylation procedures, with special emphasis on their application to opiate alkaloids.

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Synthesis of Polyphosphazene with Pendent Perfluorobutylsulfonylimide Group

Abstract: A new polyphosphazene with perfluorobutylsulfonylimide as a pendent group has been prepared. The structure of the polymer and its properties were characterized by 1 H NMR, 19 F NMR, IR spectra, gel permeation chromatography, and thermogravimetric analysis.

Cited by 3 publications

References 22 publications

A Simple and Sensitive SPRS Method for Trace H2O2 Based on the TiO2+ Complex and Gold Nanoparticles Aggregation Reactions

A Simple and Sensitive SPRS Method for Trace H2O2 Based on the TiO2+ Complex and Gold Nanoparticles Aggregation Reactions

Liquid‐Liquid Emulsion Produced by 3D‐Printed Vortex‐Based Hydrodynamic Cavitation Device

N-Demethylation of Alkaloids

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