Blockcopolymere mit funktionellen anorganischen Blöcken: lebende Additionspolymerisation von anorganischen Monomeren

Manners, Ian

doi:10.1002/ange.200604503

Cited by 10 publications

(1 citation statement)

References 40 publications

(9 reference statements)

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“…The introduction of inorganic elements into a polymer can lead to useful chemical and physical properties as well as functionality that complements the characteristics accessible with all‐organic materials 49. Polymers containing main group elements and metals have traditionally been difficult to prepare in a controlled fashion; however, recent progress in the preparation of monomers and synthetic techniques has enabled the development of well‐defined inorganic polymers and block copolymers through living polymerizations 49e. Block copolymers containing an inorganic block have been synthesized by living anionic ring‐opening,50 photocontrolled ring‐opening,22 ring‐opening metathesis,51 anionic olefinic‐like chain growth,52 controlled radical,53 and cationic54 polymerization methods.…”

Section: Synthetic Advancesmentioning

confidence: 99%

Increasing annual runoff—broadleaf or coniferous forests?

Komatsu

Kume

Otsuki

2010

Hydrological Processes

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According to widely held belief, annual evapotranspiration (ET) for broadleaf forests is less than that for coniferous forests, resulting in higher annual runoff for broadleaf forests. We processed 82 catchment runoff and 126 interception loss data from temperate regions and found that although the belief is valid under conditions of broadleaf deciduous forests and high winter precipitation (e.g. the United States), it is invalid under conditions of broadleaf evergreen forests (e.g. New Zealand) or low winter precipitation (e.g. Japan). Thus, forest management policies based on this belief should be reconsidered on the basis of our results for regions with broadleaf evergreen forests or low winter precipitation.

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Section: Synthetic Advancesmentioning

confidence: 99%

Increasing annual runoff—broadleaf or coniferous forests?

Komatsu

Kume

Otsuki

2010

Hydrological Processes

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Iridium‐Catalyzed Dehydrocoupling of Primary Amine–Borane Adducts: A Route to High Molecular Weight Polyaminoboranes, Boron–Nitrogen Analogues of Polyolefins

2008

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Funktionale Blockcopolymere: nanostrukturierte Materialien mit neuen Anwendungsmöglichkeiten

2012

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Moderne Methoden der Polymersynthese eröffnen eine Vielzahl an Möglichkeiten zur zielgerichteten Herstellung von Blockcopolymeren mit maßgeschneiderter Funktionalität. Die Selbstaggregation solcher Makromoleküle in fester Phase oder in Lösung führt zur Bildung nanostrukturierter Materialien mit unterschiedlichen Eigenschaften und möglichen Funktionen. Dieser Aufsatz beschäftigt sich mit jüngsten Entwicklungen auf dem Gebiet der Blockcopolymer‐basierten Materialien und behandelt eine Auswahl sich entwickelnder Anwendungsfelder.

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Blockcopolymere mit funktionellen anorganischen Blöcken: lebende Additionspolymerisation von anorganischen Monomeren

Cited by 10 publications

References 40 publications

Increasing annual runoff—broadleaf or coniferous forests?

Increasing annual runoff—broadleaf or coniferous forests?

Iridium‐Catalyzed Dehydrocoupling of Primary Amine–Borane Adducts: A Route to High Molecular Weight Polyaminoboranes, Boron–Nitrogen Analogues of Polyolefins

Funktionale Blockcopolymere: nanostrukturierte Materialien mit neuen Anwendungsmöglichkeiten

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