Aether 1.19

[Martta Borromeo]

I keep seeing a NoSuchElementException for the tag in the maven-dependency-plugin. I have tried adding dependencies for aether-spi, aether-api, and aether-util to my pom.xml but the error does not go away. I can sometimes get it to go away if I repeatedly update and clean the project or run mvn package. Is there a dependency I can add or an update to the plugin I can make to prevent this error? Is there something wrong with my pom.xml?

First you have defined packaging jar but you have define the maven-war-plugin in your pom file? If you like to produce a war file change the packaging to war. Furthermore I'm not sure why you are using maven-dependency-plugin to copy file to lib folder? This looks wrong. Furthermore dependencies to Aether is simply wrong, cause it's used by Maven and plugins but usually not by users...

A series of poly(ethylene glycol-co-isopropylidene glyceryl glycidyl ether) (P(EO-co-IGG)) random copolymers with different fractions of 1,2-isopropylidene glyceryl glycidyl ether (IGG) units was synthesized. After acidic hydrolysis a new type of "functional PEGs", namely poly(ethylene glycol-co-glyceryl glycerol) (P(EO-co-GG)) was obtained. Using an initiator that releases a terminal amino moiety after deprotection, functional end groups with orthogonal reactivity to the in-chain groups were obtained. All polymers showed narrow molecular weight distributions (1.07-1.19), and control of the molecular weights was achieved in the range 5000-30 000 g/mol. Random incorporation of both comonomers was verified by monitoring the copolymerization kinetics via real-time 1H NMR spectroscopy during the polymerization and by characterization of the triad sequence distribution, relying on 13C NMR analysis. Using the 1,2-diol component of the side chains allows for attachment and facile acid-catalyzed release of molecules bearing ketone/aldehyde functionalities. This renders the materials potentially useful as support for reagents, drugs or catalysts. This was demonstrated using benzaldehyde as a model compound. DSC was carried out on all samples, showing amorphous structures upon incorporation of IGG fractions exceeding 15%.

N2 - A series of poly(ethylene glycol-co-isopropylidene glyceryl glycidyl ether) (P(EO-co-IGG)) random copolymers with different fractions of 1,2-isopropylidene glyceryl glycidyl ether (IGG) units was synthesized. After acidic hydrolysis a new type of "functional PEGs", namely poly(ethylene glycol-co-glyceryl glycerol) (P(EO-co-GG)) was obtained. Using an initiator that releases a terminal amino moiety after deprotection, functional end groups with orthogonal reactivity to the in-chain groups were obtained. All polymers showed narrow molecular weight distributions (1.07-1.19), and control of the molecular weights was achieved in the range 5000-30 000 g/mol. Random incorporation of both comonomers was verified by monitoring the copolymerization kinetics via real-time 1H NMR spectroscopy during the polymerization and by characterization of the triad sequence distribution, relying on 13C NMR analysis. Using the 1,2-diol component of the side chains allows for attachment and facile acid-catalyzed release of molecules bearing ketone/aldehyde functionalities. This renders the materials potentially useful as support for reagents, drugs or catalysts. This was demonstrated using benzaldehyde as a model compound. DSC was carried out on all samples, showing amorphous structures upon incorporation of IGG fractions exceeding 15%.

AB - A series of poly(ethylene glycol-co-isopropylidene glyceryl glycidyl ether) (P(EO-co-IGG)) random copolymers with different fractions of 1,2-isopropylidene glyceryl glycidyl ether (IGG) units was synthesized. After acidic hydrolysis a new type of "functional PEGs", namely poly(ethylene glycol-co-glyceryl glycerol) (P(EO-co-GG)) was obtained. Using an initiator that releases a terminal amino moiety after deprotection, functional end groups with orthogonal reactivity to the in-chain groups were obtained. All polymers showed narrow molecular weight distributions (1.07-1.19), and control of the molecular weights was achieved in the range 5000-30 000 g/mol. Random incorporation of both comonomers was verified by monitoring the copolymerization kinetics via real-time 1H NMR spectroscopy during the polymerization and by characterization of the triad sequence distribution, relying on 13C NMR analysis. Using the 1,2-diol component of the side chains allows for attachment and facile acid-catalyzed release of molecules bearing ketone/aldehyde functionalities. This renders the materials potentially useful as support for reagents, drugs or catalysts. This was demonstrated using benzaldehyde as a model compound. DSC was carried out on all samples, showing amorphous structures upon incorporation of IGG fractions exceeding 15%.

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