SFB 1333 "Molecular heterogeneous catalysis in confined geometries"

All primary data files of published research from CRC 1333, e.g. from journal articles.

SFB 1333 A1+B2 - Buchmeiser group, IPOC-MSF

SFB 1333 C1 - Dyballa group, ITC

SFB 1333 C5 - Groß/ Hansen group, ITT

SFB 1333 C4 - Kästner group, ITheoC

SFB 1333 A4 - Traa group, ITC

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18,001 to 18,010 of 18,224 Results

S9348P31.dx Mar 9, 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" Unknown - 268.1 KB - MD5: 8df9387b4eef1a80419f759a46352c19 MAS-NMR, Figure 2, Pt(PPh3)4
S9445P31.dx Mar 9, 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" Unknown - 464.5 KB - MD5: 5a4e1e5e97833c6f31a8bd5cc05eaefc MAS-NMR, Figure 2, PPh3
S9448P31.dx Mar 9, 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" Unknown - 509.1 KB - MD5: e93fb8804942d08c30551e4ec7fb5e0e MAS-NMR, Figure 2, Na-Y
S9663P31.dx Mar 9, 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" Unknown - 454.9 KB - MD5: f0df51e26e54ec6bf9d524de1dd36f70 MAS-NMR, Figure 1, Na-Y
S9779P31.dx Mar 9, 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" Unknown - 380.4 KB - MD5: a8d572b4b69f38e1dcc2a0890c2076ef MAS-NMR, Figure 1, SBA-15
S9781P31.dx Mar 9, 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" Unknown - 355.3 KB - MD5: 21a6bc670b646abed62f5fcac8c5a4a3 MAS-NMR, Figure 1, silica A200
SFB 1333 A5 - Bill group, IMW(Universität Stuttgart) Feb 18, 2021 In this dataverse you can find all research data related to publications of the group generated within the context of CRC 1333.
Supplementary material for 'PoreMS: A software tool for generating silica pore models with user-defined surface functionalisation and pore dimensions' Feb 10, 2021 - Molecular Simulation Kraus, Hamzeh, 2021, "Supplementary material for 'PoreMS: A software tool for generating silica pore models with user-defined surface functionalisation and pore dimensions'", https://doi.org/10.18419/DARUS-1170, DaRUS, V1 This dataset contains Jupiter Notebooks and the necessary structure files needed for generating the pore systems discussed in the related publication. Additionally, high-resolution figures discussed in the paper are added.
c18.gro Feb 10, 2021 - Supplementary material for 'PoreMS: A software tool for generating silica pore models with user-defined surface functionalisation and pore dimensions' Unknown - 1.1 KB - MD5: b00f8e6a7ca08d1a7bb878e7638ef2e9 C18 chain structure in gro format placed on the RPLC mesopore model.
catabm.gro Feb 10, 2021 - Supplementary material for 'PoreMS: A software tool for generating silica pore models with user-defined surface functionalisation and pore dimensions' Unknown - 3.4 KB - MD5: 57041007e0631df1bfa5f4935a999f4f Ruthenium catalyst structure in gro format placed on the catalytic mesopore model.

S9348P31.dx

Mar 9, 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"

Unknown - 268.1 KB -

MAS-NMR, Figure 2, Pt(PPh3)4

S9445P31.dx

Mar 9, 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"

Unknown - 464.5 KB -

MAS-NMR, Figure 2, PPh3

S9448P31.dx

Mar 9, 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"

Unknown - 509.1 KB -

MAS-NMR, Figure 2, Na-Y

S9663P31.dx

Mar 9, 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"

Unknown - 454.9 KB -

MAS-NMR, Figure 1, Na-Y

S9779P31.dx

Mar 9, 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"

Unknown - 380.4 KB -

MAS-NMR, Figure 1, SBA-15

S9781P31.dx

Mar 9, 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"

Unknown - 355.3 KB -

MAS-NMR, Figure 1, silica A200

SFB 1333 A5 - Bill group, IMW(Universität Stuttgart)

Feb 18, 2021

In this dataverse you can find all research data related to publications of the group generated within the context of CRC 1333.

Supplementary material for 'PoreMS: A software tool for generating silica pore models with user-defined surface functionalisation and pore dimensions'

Feb 10, 2021 - Molecular Simulation

Kraus, Hamzeh, 2021, "Supplementary material for 'PoreMS: A software tool for generating silica pore models with user-defined surface functionalisation and pore dimensions'", https://doi.org/10.18419/DARUS-1170, DaRUS, V1

This dataset contains Jupiter Notebooks and the necessary structure files needed for generating the pore systems discussed in the related publication. Additionally, high-resolution figures discussed in the paper are added.

c18.gro

Feb 10, 2021 - Supplementary material for 'PoreMS: A software tool for generating silica pore models with user-defined surface functionalisation and pore dimensions'

Unknown - 1.1 KB -

C18 chain structure in gro format placed on the RPLC mesopore model.

catabm.gro

Feb 10, 2021 - Supplementary material for 'PoreMS: A software tool for generating silica pore models with user-defined surface functionalisation and pore dimensions'

Unknown - 3.4 KB -

Ruthenium catalyst structure in gro format placed on the catalytic mesopore model.

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