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Thermogravimetric Analysis and Differential Scanning Calorimetry Device

University Of Edinburgh

Buyer Contact Info

Buyer Name: University Of Edinburgh

Buyer Address: Charles Stewart House, 9-16 Chambers Street, Edinburgh, UKM75, EH1 1HT

Contact Name: James Clarke

Contact Email: jclarke5@ed.ac.uk

Status
complete
Procedure
limited
Value
77889.1 GBP
Published
09 Jun 2025, 00:00
Deadline
n/a
Contract Start
n/a
Contract End
n/a
Category
goods
CPV
38000000
Region
n/a
Awarded To
Netzsch instrument UK PLC
Official Source
Open Public Contracts Scotland

Description

The School of Engineering required an instrument that has the ability to do both Thermogravimetry (TGA for measuring mass changes) and Differential Scanning Calorimetry (DSC for measuring energy conversion) analysis from -150C to over +1000C. The reason that this is a necessary element to the School of Engineering is because the equipment is utilised by dozens of researchers across a number of research groups. Adding as much breadth to the device as possible allows for the School of Engineering to be able to process samples under a wider range of test conditions using just one instrument. This instrument will be used to analyse the thermal stability property of numerous kinds of novel materials, including catalysts, separation membranes, composite materials, nanomaterials and much more. To be able to effectively analyse the thermal stability properties of the above it is necessary to be able to go into the negative temperature ranges. The temperature range is unique to the Netzsch device as no other supplier is able to match this range and do both TGA/DSC. Therefore, for technical reasons the University of Edinburgh purchased the Simultaneous Thermal Analysis Device.

Linked Documents

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Opportunity Context

More Information Links

External Link: https://www.publiccontractsscotland.gov.uk/search/show/search_view.aspx?ID=JUN532157

Link Title: Thermogravimetric Analysis and Differential Scanning Calorimetry Device

Link Description: The School of Engineering required an instrument that has the ability to do both Thermogravimetry (TGA for measuring mass changes) and Differential Scanning Calorimetry (DSC for measuring energy conversion) analysis from -150C to over +1000C. The reason that this is a necessary element to the School of Engineering is because the equipment is utilised by dozens of researchers across a number of research groups. Adding as much breadth to the device as possible allows for the School of Engineering to be able to process samples under a wider range of test conditions using just one instrument. This instrument will be used to analyse the thermal stability property of numerous kinds of novel materials, including catalysts, separation membranes, composite materials, nanomaterials and much more. To be able to effectively analyse the thermal stability properties of the above it is necessary to be able to go into the negative temperature ranges. The temperature range is unique to the Netzsch device as no other supplier is able to match this range and do both TGA/DSC. Therefore, for technical reasons the University of Edinburgh purchased the Simultaneous Thermal Analysis Device.

Lots

Lot Description: The School of Engineering required an instrument that has the ability to do both Thermogravimetry (TGA for measuring mass changes) and Differential Scanning Calorimetry (DSC for measuring energy conversion) analysis from -150C to over +1000C. The reason that this is a necessary element to the School of Engineering is because the equipment is utilised by dozens of researchers across a number of research groups. Adding as much breadth to the device as possible allows for the School of Engineering to be able to process samples under a wider range of test conditions using just one instrument. This instrument will be used to analyse the thermal stability property of numerous kinds of novel materials, including catalysts, separation membranes, composite materials, nanomaterials and much more. To be able to effectively analyse the thermal stability properties of the above it is necessary to be able to go into the negative temperature ranges. The temperature range is unique to the Netzsch device as no other supplier is able to match this range and do both TGA/DSC. Therefore, for technical reasons the University of Edinburgh purchased the Simultaneous Thermal Analysis Device.

Lot 1 Status: complete

Lot 1 Has Options: No

Lot 1 Award Criterion (quality): Technical

Documents

Document Title: Thermogravimetric Analysis and Differential Scanning Calorimetry Device

Document Description: The School of Engineering required an instrument that has the ability to do both Thermogravimetry (TGA for measuring mass changes) and Differential Scanning Calorimetry (DSC for measuring energy conversion) analysis from -150C to over +1000C. The reason that this is a necessary element to the School of Engineering is because the equipment is utilised by dozens of researchers across a number of research groups. Adding as much breadth to the device as possible allows for the School of Engineering to be able to process samples under a wider range of test conditions using just one instrument. This instrument will be used to analyse the thermal stability property of numerous kinds of novel materials, including catalysts, separation membranes, composite materials, nanomaterials and much more. To be able to effectively analyse the thermal stability properties of the above it is necessary to be able to go into the negative temperature ranges. The temperature range is unique to the Netzsch device as no other supplier is able to match this range and do both TGA/DSC. Therefore, for technical reasons the University of Edinburgh purchased the Simultaneous Thermal Analysis Device.

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