%0 Generic %1 markus2023ordered %A Markus, Felix %A Vogler, Charlotte %A Bruckner, Johanna R. %A Naumann, Stefan %D 2023 %K darus mult ubs_10003 ubs_10018 ubs_20003 ubs_20023 ubs_30035 ubs_30036 ubs_30203 ubs_40061 ubs_40064 unibibliografie %R 10.18419/darus-1827 %T Data for " Ordered Mesoporous Carbons via Self-Assembly of Tailored Block Copolyethers for Pore Size-Dependent Applications" %X Data for Ördered Mesoporous Carbons via Self-Assembly of Tailored Block Copolyethers for Pore Size-Dependent Applications" is reported. The data is structured according to polymer sample identifiers in the research article and contains the following data types: NMR raw data, GPC (SEC) raw data, gas sorption (N2) data, SAXS raw data.The data is further structured in a way that for each polymer sample, the NMR and GPC analysis is given. The carbon materials resulting from the applications of these polymers are then further characterized by gas sorption and SAXS.NMR data can be used to calculate average block lengths and the hydrophilic-to-lipophilic balance. GPC data contain information about relative molar masses and molar mass distribution. Gas sorption reveals information about, e.g., pore sizes and their distribution as well as specific surface area. SAXS data can be studied for symmetry of pore arrangement.

@misc{markus2023ordered, abstract = {Data for "Ordered Mesoporous Carbons via Self-Assembly of Tailored Block Copolyethers for Pore Size-Dependent Applications" is reported. The data is structured according to polymer sample identifiers in the research article and contains the following data types: NMR raw data, GPC (SEC) raw data, gas sorption (N2) data, SAXS raw data.The data is further structured in a way that for each polymer sample, the NMR and GPC analysis is given. The carbon materials resulting from the applications of these polymers are then further characterized by gas sorption and SAXS.NMR data can be used to calculate average block lengths and the hydrophilic-to-lipophilic balance. GPC data contain information about relative molar masses and molar mass distribution. Gas sorption reveals information about, e.g., pore sizes and their distribution as well as specific surface area. SAXS data can be studied for symmetry of pore arrangement. }, added-at = {2023-08-07T14:10:48.000+0200}, affiliation = {Markus, Felix/University of Stuttgart, Institute for Polymer Chemistry, Vogler, Charlotte/University of Stuttgart, Institute for Polymer Chemistry, Bruckner, Johanna R./University of Stuttgart, Institute for Physical Chemistry, Naumann, Stefan/University of Stuttgart, Institute for Polymer Chemistry}, author = {Markus, Felix and Vogler, Charlotte and Bruckner, Johanna R. and Naumann, Stefan}, biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2b2c8837f4ecf7e7e98ce34afd8b6fdec/unibiblio}, doi = {10.18419/darus-1827}, howpublished = {Dataset}, interhash = {01d4b66a625ea0d268d731e598356386}, intrahash = {b2c8837f4ecf7e7e98ce34afd8b6fdec}, keywords = {darus mult ubs_10003 ubs_10018 ubs_20003 ubs_20023 ubs_30035 ubs_30036 ubs_30203 ubs_40061 ubs_40064 unibibliografie}, note = {Related to: F. Markus, C. Vogler, J. R. Bruckner, S. Naumann, Ordered Mesoporous Carbons via Self-Assembly of Tailored Block Copolyethers for Pore Size-Dependent Applications. ACS Applied Nano Materials 2021, 4, 4, 3486-3492. doi: 10.1021/acsanm.0c03467}, timestamp = {2023-08-07T14:10:48.000+0200}, title = {Data for " Ordered Mesoporous Carbons via Self-Assembly of Tailored Block Copolyethers for Pore Size-Dependent Applications"}, year = 2023 }