Publication data for: "Potential of triphenylphosphine as solid-state NMR probe for studying the noble metal distribution on porous supports - data from Dyballa group"doi:10.18419/darus-1333DaRUS2021-03-091Dyballa, Michael, 2021, "Publication data for: "Potential of triphenylphosphine as solid-state NMR probe for studying the noble metal distribution on porous supports - data from Dyballa group"", https://doi.org/10.18419/darus-1333, DaRUS, V1Publication data for: "Potential of triphenylphosphine as solid-state NMR probe for studying the noble metal distribution on porous supports - data from Dyballa group"doi:10.18419/darus-1333Dyballa, MichaelRieg, CarolinDittmann, DanielLi, ZhengBuchmeiser, MichaelPlietker, BerndHunger, MichaelDyballa, Michael358283783 – SFB 1333DaRUSDyballa, MichaelRieg, Carolin2021-02-09ChemistryHeterogeneous CatalysisChemical EngineeringAll primary data files and processed data of the journal article from Dyballa group.
NMR files are uploaded as jcampdx data.M. Dyballa, C. Rieg, D. Dittmann, Z. Li, M. Buchmeiser, B. Plietker, M. Hunger (2020), "Potential of triphenylphosphine as solid-state NMR probe for studying the noble metal distribution on porous supports", Microporous and Mesoporous Materials, Volume 293, (109778)10.1016/j.micromeso.2019.109778M. Dyballa, C. Rieg, D. Dittmann, Z. Li, M. Buchmeiser, B. Plietker, M. Hunger (2020), "Potential of triphenylphosphine as solid-state NMR probe for studying the noble metal distribution on porous supports", Microporous and Mesoporous Materials, Volume 293, (109778)AS852301.crwH2 Chemisorption, 1.1 Pt/A200, Evaluation with Extrapolation methodapplication/octet-streamAS852401.crwH2 Chemisorption, 0.4 Rh/A200, Evaluation with Extrapolation methodapplication/octet-streamAS852501a.crwH2 Chemisorption, 1.9 Pt/SBA-15, Evaluation with Extrapolation methodapplication/octet-streamAS860401.crwH2 Chemisorption, 1.0 Rh/SBA-15, Evaluation with Extrapolation methodapplication/octet-streamAS860501.crwH2 Chemisorption, 4.5 Pt/DeA-Y, Evaluation with Extrapolation methodapplication/octet-streamAS860801.crwH2 Chemisorption, 1.9 Rh/DeA-Y, Evaluation with Extrapolation methodapplication/octet-streamPt-A200_DD.txtH2 Chemisorption, 1.1 Pt/A200, Evaluation with Extrapolation methodtext/plainPt-DeA-Y-2_DD.txtH2 Chemisorption, 4.5 Pt/DeA-Y, Evaluation with Extrapolation methodtext/plainPt-SBA-15_DD.txtH2 Chemisorption, 1.9 Pt/SBA-15, Evaluation with Extrapolation methodtext/plainRh-A200.txtH2 Chemisorption, 0.4 Rh/A200, Evaluation with Extrapolation methodtext/plainRh-Dea-Y-2_DD.txtH2 Chemisorption, Rh/DeA-Y, Evaluation with Extrapolation methodtext/plainRh-SBA-15_DD.txtH2 Chemisorption, 1.0 Rh/SBA-15, Evaluation with Extrapolation methodtext/plainS9274P31.dxH2 Chemisorption, 1.9 Rh/DeA-Y, Evaluation with Extrapolation methodapplication/octet-streamS9286P31.dxMAS-NMR, Figure 1, silica A200application/octet-streamS9308P31.dxMAS-NMR, Figure 3, PPh3 + DeA-Yapplication/octet-streamS9310P31.dxMAS-NMR, Figure 1, Pt/A200application/octet-streamS9311P31.dxMAS-NMR, Figure 5, Pt/SBA-15application/octet-streamS9313P31.dxMAS-NMR, Figure 5, Pt/SBA-15application/octet-streamS9314P31.dxMAS-NMR, Figure 7, Rh/A200application/octet-streamS9315P31.dxMAS-NMR, Figure 7, RhDeA-Yapplication/octet-streamS9348P31.dxMAS-NMR, Figure 2, Pt(PPh3)4application/octet-streamS9445P31.dxMAS-NMR, Figure 2, PPh3application/octet-streamS9448P31.dxMAS-NMR, Figure 2, Na-Yapplication/octet-streamS9663P31.dxMAS-NMR, Figure 1, Na-Yapplication/octet-streamS9779P31.dxMAS-NMR, Figure 1, SBA-15application/octet-streamS9781P31.dxMAS-NMR, Figure 1, silica A200application/octet-stream190211S1_DeA-Y_1_CR.pdfN2 Physisorption, DeA-Y zeoliteapplication/pdf190222S2_SBA15_CR_1calc.pdfN2 Physisorption, SBA-15 (calcined material)application/pdf190314S3_Aerosil1-CR.pdfN2 Physisorption, silica A200application/pdf190424S2_Na-Y-1-CR.pdfN2 Physisorption, Na-Y zeoliteapplication/pdf