Data

Carbon dioxide capture and conversion dataset

The University of Sydney
Dr Deanna D'Alessandro (Managed by)
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ctx_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rfr_id=info%3Asid%2FANDS&rft.title=Carbon dioxide capture and conversion dataset&rft.publisher=The University of Sydney&rft.description= The carbon dioxide capture and conversion dataset is an output of a Science & Industry Endowment Fund (SIEF) project to develop nanoporous metal-organic frameworks that have an affinity for carbon dioxide.  A goal of the project is to develop nanoporous materials that will aid in the development of more efficient processes for the capture, conversion and sequestration of carbon dioxide.  The ultimate goal of the project is the development of new classes of efficient, cost-effective, and industrially viable materials for application in carbon capture and storage (CCS) systems. Efficient carbon capture offers opportunities to reduce the industrial output of greenhouse gas emissions on a national and international scale. Gas sorption data was captured using a Micromeritics ASAP2020 Sorption Instrument, and an IGA-100 Intelligent Gravimetric Adsorption analyser.  Instrument data is converted to .CSV format, and is manipulated using data analysis and visualisation software programmes including Origin, SigmaPlot and MathCAD. Analysed data is exported to .JPEG format for publication. For further information, please refer to the associated publications. &rft.creator=Anonymous&rft.date=2012&rft.relation=10.1039/C1SC00354B&rft.relation=10.1351/PAC-CON-10-09-18&rft.relation=10.1002/anie.201000431&rft.relation=10.1021/ja903411w&rft_rights=Copyright The University of Sydney 2011-2015. All rights reserved.&rft_subject=Transition Metal Chemistry&rft_subject=CHEMICAL SCIENCES&rft_subject=INORGANIC CHEMISTRY&rft_subject=Electrochemistry&rft_subject=PHYSICAL CHEMISTRY (INCL. STRUCTURAL)&rft_subject=Chemical Characterisation of Materials&rft_subject=MACROMOLECULAR AND MATERIALS CHEMISTRY&rft_subject=Optical Properties of Materials&rft_subject=Synthesis of Materials&rft_subject=Nanochemistry and Supramolecular Chemistry&rft_subject=Structural Chemistry and Spectroscopy&rft_subject=Inorganic hemistry&rft_subject=Electron transfer&rft_subject=Advanced materials&rft_subject=Coordination polymer&rft_subject=Metal-organic framework&rft_subject=Nanoporosity&rft_subject=Supramolecular&rft.type=dataset&rft.language=English Access the data

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School of Chemistry
The University of Sydney
NSW 2006 Australia



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Copyright The University of Sydney 2011-2015. All rights reserved.

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Brief description

The carbon dioxide capture and conversion dataset is an output of a Science & Industry Endowment Fund (SIEF) project to develop nanoporous metal-organic frameworks that have an affinity for carbon dioxide.  A goal of the project is to develop nanoporous materials that will aid in the development of more efficient processes for the capture, conversion and sequestration of carbon dioxide.  The ultimate goal of the project is the development of new classes of efficient, cost-effective, and industrially viable materials for application in carbon capture and storage (CCS) systems. Efficient carbon capture offers opportunities to reduce the industrial output of greenhouse gas emissions on a national and international scale.

Gas sorption data was captured using a Micromeritics ASAP2020 Sorption Instrument, and an IGA-100 Intelligent Gravimetric Adsorption analyser.  Instrument data is converted to .CSV format, and is manipulated using data analysis and visualisation software programmes including Origin, SigmaPlot and MathCAD. Analysed data is exported to .JPEG format for publication. For further information, please refer to the associated publications.

Notes

Funded by the Science & Industry Endowment Fund (SIEF). Project title: Solving the Energy Waste Roadblock.

Data time period: 2011 to 2015

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Subjects
Advanced materials | Chemical Sciences | Chemical Characterisation of Materials | Coordination polymer | Electrochemistry | Electron transfer | Inorganic Chemistry | Inorganic hemistry | Macromolecular and Materials Chemistry | Metal-organic framework | Nanochemistry and Supramolecular Chemistry | Nanoporosity | Optical Properties of Materials | Physical Chemistry (Incl. Structural) | Structural Chemistry and Spectroscopy | Supramolecular | Synthesis of Materials | Transition Metal Chemistry |

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