Data underlying the publication: nZVI impacts substrate conversion and microbiome composition in lactate-based chain elongation from D- and L-lactate substrates
DOI:10.4121/14236922.v1
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DOI: 10.4121/14236922
DOI: 10.4121/14236922
Datacite citation style
Contreras Davila, Carlos; Esveld, Johan; C.J.N. (Cees) Buisman; david strik (2021): Data underlying the publication: nZVI impacts substrate conversion and microbiome composition in lactate-based chain elongation from D- and L-lactate substrates. Version 1. 4TU.ResearchData. dataset. https://doi.org/10.4121/14236922.v1
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Dataset
Medium-chain carboxylates (MCC) derived from biomass biorefining are attractive biochemicals to uncouple the production of a wide array of products from the use of non-renewable sources. Biological conversion of biomass-derived lactate during secondary fermentation can be steered to produce a variety of MCC through chain elongation. We explored the effects of zero-valent iron nanoparticles (nZVI) and lactate enantiomers on substrate consumption, product formation and microbiome composition in batch lactate-based chain elongation.
History
- 2021-03-23 first online, published, posted
Publisher
4TU.ResearchDataFunding
- CONACYT-SENER Sustentabilidad Energética, Mexico [grant number 297027]
Organizations
Environmental Technology, Wageningen University & ResearchDATA
Files (19)
- 3,354 bytesMD5:
caefec59978096b71b909a9584b691efreadme.txt - 977 bytesMD5:
b0ad2c2cf4102e919213ab44b9b12191Experiment I- Calculated hydrolysis with nZVI and final pH.csv - 1,490 bytesMD5:
9f3201e8d260a8b3346e2d66f70d2a1aExperiment I- HPLC raw data + monomeric lactate concentrations.csv - 3,879 bytesMD5:
78c1825f46dec31c11d962d6cf634f1cExperiment II- Calculated partial pressures.csv - 7,573 bytesMD5:
74c6d8318cfcdb4395b5599779db9a79Experiment II- Carbon balance and selectivity.csv - 15,741 bytesMD5:
65dd43951de5901be89e39a2d2592882Experiment II- Carboxylates-CO2 concentrations and pH.csv - 5,611 bytesMD5:
a2f576e36059e01ab8d49cadc0b07d15Experiment II- Electron balance and selectivity.csv - 3,346 bytesMD5:
242a917cabf4476cca395fdc92b1f950Experiment II- Gas pressure and gas release.csv - 28,584 bytesMD5:
1506f3222b14443e721194ff0aafb8e2Experiment II- GC and HPLC raw data.csv - 1,568 bytesMD5:
1f57084d246d8d9ec523012293b1f21fExperiment II- Lactate enantiomeric excess.csv - 7,927 bytesMD5:
558ba82b347c4119b52fee953b9023fdExperiment III- Carboxylates concentrations, pH and gas partial pressure.csv - 1,911 bytesMD5:
e2c68f3fa914de421b483f980d787531Experiment III- Electron balance.csv - 18,771 bytesMD5:
0f71d5e16cd45b650fa072d0b5b9e32aExperiment III- GC and HPLC raw data.csv - 8,406 bytesMD5:
606482c725abf0a2b48f06992fc5927aExperiment IV- Carbon balance and selectivity.csv - 17,851 bytesMD5:
bf66042b6f8127e53cbfa6b4b8cd1b3cExperiment IV- Carboxylates-CO2 concentrations and pH.csv - 4,245 bytesMD5:
f2f2d1ee65525ca25f6f951e10ba6546Experiment IV- Electron balance and selectivity.csv - 49,302 bytesMD5:
00cea4f68e7996d20d4afda77e577730Experiment IV- GC and HPLC raw data.csv - 4,554 bytesMD5:
97b453e655f0e564fb5ae35f16f03337Experiment IV- H2 and CO2 partial pressures.csv - 1,530 bytesMD5:
90ac55227608257e3857a7e80df4dbfbExperiment IV- Lactate enantiomeric excess.csv -
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