variable temperature experiments made easy with automated software

Pna2 1 Pna2 1 Pna2 1 Cmc2 1 Cmc2 1 S.J. Coles * , M.B. Hursthouse, S.L. Huth & M.E. Light * . School of Chemistry, University of Southampton, Southampton, SO17 1BJ. UK.; Email: [email protected] Test case Sample 300-166-1 exhibited unusual, temperature dependent, physical properties when investigated by Differential Scanning Calorimetry. The software Cryogui is a graphical user interface that links the operation of a KappaCCD and an Oxford Cryosystems Cryostream. The code is written in PYTHON and utilises the ability of a Kappa CCD to interface with a cryostream, and the accessibility of the Bruker-Nonius COLLECT data collection modules, classes and functions. The user is able to select the start and end temperatures (going either up or down), the ramp step and rate and a wait time to allow the cryostream to stabilise. To enable the system to work it is necessary to connect the cryostream to the server PC serial port via an RS232 cable and then set the cryostream type and port number in the Server Software. Variable temperature experiments made easy with automated software After a data set has been collected it is automatically integrated and scaled to produce an hkl file. Other output includes an html file containing all the unit cell dimensions (useful when just running unit cell determinations) and the same information in a tab delimited file readable by excel. Configure data collection parameters Start data collection Visualise and manipulate data Why automate? Variable temperature experiments have, in the past, involved a large amount of operator input and effort. As a result many interesting results may have been missed or found only as a result of serendipity. In Southampton this situation has been addressed by the development of in-house software to perform such variable temperature experiments in a fully automated manner. This enables variable temperature experiments to be carried out without manually changing the temperature and setting up the experiment. Temp1 Temp2 Temp3 Temp4 Temp5 The types of experiment that can be carried out include thermal dehydration of compounds such as zeolites, parametric studies to look for effects like negative thermal expansion, phase transition location, and investigation of temperature dependant ion migration.

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Page 1: Variable temperature experiments made easy with automated software

Pna21 Pna21 Pna21 Cmc21Cmc21

S.J. Coles*, M.B. Hursthouse, S.L. Huth & M.E. Light*.

School of Chemistry, University of Southampton, Southampton, SO17 1BJ. UK.; Email: [email protected]

Test case

Sample 300-166-1 exhibited unusual, temperature dependent, physical properties when investigated by Differential Scanning Calorimetry.

The softwareCryogui is a graphical user interface that links the operation of a KappaCCD and an Oxford Cryosystems Cryostream. The code is written in PYTHON and utilises the ability of a Kappa CCD to interface with a cryostream, and the accessibility of the Bruker-Nonius COLLECT data collection modules, classes and functions. The user is able to select the start and end temperatures (going either up or down), the ramp step and rate and a wait time to allow the cryostream to stabilise. To enable the system to work it is necessary to connect the cryostream to the server PC serial port via an RS232 cable and then set the cryostream type and port number in the Server Software.

Variable temperature experiments made easy with automated software

After a data set has been collected it is automatically integrated and scaled to produce an hkl file. Other output includes an html file containing all the unit cell dimensions (useful when just running unit cell determinations) and the same information in a tab delimited file readable by excel.

Configure data collection

parameters

Start data collection

Visualise and manipulate data

Why automate? Variable temperature experiments have, in the past, involved a large amount of operator input and effort. As a result many interesting results may have been missed or found only as a result of serendipity. In Southampton this situation has been addressed by the development of in-house software to perform such variable temperature experiments in a fully automated manner. This enables variable temperature experiments to be carried out without manually changing the temperature and setting up the experiment.

Temp1 Temp2 Temp3 Temp4 Temp5

The types of experiment that can be carried out include thermal dehydration of compounds such as zeolites, parametric studies to look for effects like negative thermal expansion, phase transition location, and investigation of temperature dependant ion migration.

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