Synthetic Polyester from Algae Oil

Via an all‐catalytic route, long‐chain diamines were prepared by the catalytic direct amination of long‐chain diols, derived from plant oils. High conversion was achieved with good selectivity, with the amount of nitrile impurities formed suppressed to a low level. From the lignocellulose‐based 5‐hydroxymethylfurfural (5‐HMF), or from bis(hydroxymethyl)furan, 2,5‐bis(aminomethyl)furan (BAMF) was generated. 5‐HMF was converted in a one‐pot, one‐step direct amination and reductive amination using ammonia. In both cases, the reaction proceeded very efficiently. In the combined amination and reductive amination, the H2 concentration is a rate‐limiting factor. Reducing the partial pressure of H2 also shortened the reaction time required significantly. Polycondensation of the long‐chain diamines with long‐chain diacids led to higher molecular weight polyamides, illustrating the quality of the diamines obtained by this synthetic approach as monomers.

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“…[62,63] Experimental Section Ah igh excess of ammonia is key to prevent the formation of cyclic and secondary amines.…”

Section: Resultsmentioning

confidence: 99%

Diamines for Polymer Materials via Direct Amination of Lipid‐ and Lignocellulose‐based Alcohols with NH₃

et al. 2018

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“…Besides their ecological and biogeochemical importance, diatoms also gained large interest with respect to potential biotechnological or biopharmaceutical exploitation (Hamilton et al, 2015; Hempel et al, 2011a; Hempel et al, 2011b; Hempel & Maier, 2012; Roesle et al, 2014; Vanier et al, 2015). Diatoms are interesting biotechnological targets because of their easy and cheap culturing requirements, asexual reproduction and fast growth, resulting in efficient biomass production (Bozarth, Maier & Zauner, 2009; Kilian & Kroth, 2006; Kroth, 2007a).…”

Section: Introductionmentioning

confidence: 99%

Rapid induction of GFP expression by the nitrate reductase promoter in the diatomPhaeodactylum tricornutum

Chu

Ewe

Bártulos

et al. 2016

PeerJ

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An essential prerequisite for a controlled transgene expression is the choice of a suitable promoter. In the model diatom Phaeodactylum tricornutum, the most commonly used promoters for trans-gene expression are the light dependent lhcf1 promoters (derived from two endogenous genes encoding fucoxanthin chlorophyll a/c binding proteins) and the nitrate dependent nr promoter (derived from the endogenous nitrate reductase gene). In this study, we investigated the time dependent expression of the green fluorescent protein (GFP) reporter under control of the nitrate reductase promoter in independently genetically transformed P. tricornutum cell lines following induction of expression by change of the nitrogen source in the medium via flow cytometry, microscopy and western blotting. In all investigated cell lines, GFP fluorescence started to increase 1 h after change of the medium, the fastest increase rates were observed between 2 and 3 h. Fluorescence continued to increase slightly for up to 7 h even after transfer of the cells to ammonium medium. The subsequent decrease of GFP fluorescence was much slower than the increase, probably due to the stability of GFP. The investigation of several cell lines transformed with nr based constructs revealed that, also in the absence of nitrate, the promoter may show residual activity. Furthermore, we observed a strong variation of gene expression between independent cell lines, emphasising the importance of a thorough characterisation of genetically modified cell lines and their individual expression patterns.

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“…In the first step isomering alkoxycarbonylation of methyl oleate ( 1a ) and ethyl erucate ( 1b ) yielded dimethyl nonadecanedioate ( 2a ) and dimethyl tricosandioate ( 2b ), respectively, which were then reduced to obtain nonadecanediol ( 3a ) and tricosanediol ( 3b ) . In order to obtain the desired diisocyanates, the long‐chain diols were converted into the corresponding dibromides ( 4a, 4b ) via an Appel II reaction . A subsequent nucleophilic substitution reaction with potassium cyanate based on a procedure reported by Schaeffer yielded nonadecane diisocyanate ( 5a ) and tricosane diisocyanate ( 5b ) in yields up to 40% (Figure ).…”

Section: Resultsmentioning

confidence: 99%

“…After extraction with pentane (3 × 200 mL) the combined pentane phases were washed once with 200 mL of water and the solvent then removed. Column chromatography with methylene chloride and subsequent crystallization from ethanol/ethylacetat (4:1) yielded 14.5 g of a white solid (34.0 mmol, 88%) …”

Section: Methodsmentioning

confidence: 99%

Thermoplastic Polyurethane Elastomers with Aliphatic Hard Segments Based on Plant‐Oil‐Derived Long‐Chain Diisocyanates

Schemmer

Kronenbitter

Mecking

2018

Macro Materials & Eng

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Novel plant‐oil‐derived long‐chain (C19 and C23) α,ω‐diisocyanates, optionally in combination with the corresponding long‐chain diols, provide entirely aliphatic hard segments in segmented thermoplastic polyurethane elastomers (TPUs), with carbohydrate‐based poly(trimethylene glycol) soft segments. Compared to materials based on a mid‐chain monomer analog, phase separation is higher due to an increased flexibility of the aliphatic segments. Although melting points are slightly lower than for HDPE, the long‐chain TPU's solid‐state structure is still dominated by hydrogen‐bonding.

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Synthetic Polyester from Algae Oil

Cited by 83 publications

References 36 publications

Diamines for Polymer Materials via Direct Amination of Lipid‐ and Lignocellulose‐based Alcohols with NH₃

Diamines for Polymer Materials via Direct Amination of Lipid‐ and Lignocellulose‐based Alcohols with NH₃

Rapid induction of GFP expression by the nitrate reductase promoter in the diatomPhaeodactylum tricornutum

Thermoplastic Polyurethane Elastomers with Aliphatic Hard Segments Based on Plant‐Oil‐Derived Long‐Chain Diisocyanates

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Synthetic Polyester from Algae Oil

Cited by 83 publications

References 36 publications

Diamines for Polymer Materials via Direct Amination of Lipid‐ and Lignocellulose‐based Alcohols with NH3

Diamines for Polymer Materials via Direct Amination of Lipid‐ and Lignocellulose‐based Alcohols with NH3

Rapid induction of GFP expression by the nitrate reductase promoter in the diatomPhaeodactylum tricornutum

Thermoplastic Polyurethane Elastomers with Aliphatic Hard Segments Based on Plant‐Oil‐Derived Long‐Chain Diisocyanates

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Product

Resources

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Diamines for Polymer Materials via Direct Amination of Lipid‐ and Lignocellulose‐based Alcohols with NH₃

Diamines for Polymer Materials via Direct Amination of Lipid‐ and Lignocellulose‐based Alcohols with NH₃