{"id":148,"date":"2018-07-25T14:28:26","date_gmt":"2018-07-25T13:28:26","guid":{"rendered":"https:\/\/research.reading.ac.uk\/spectroelectrochemistry\/?page_id=148"},"modified":"2019-04-26T14:02:53","modified_gmt":"2019-04-26T13:02:53","slug":"low-temperature-ottle-cell","status":"publish","type":"page","link":"https:\/\/research.reading.ac.uk\/spectroelectrochemistry\/optically-transparent-thin-layer-electrochemical-cells\/low-temperature-ottle-cell\/","title":{"rendered":"Low Temperature OTTLE cell"},"content":{"rendered":"

Low temperature Spectroelectrochemistry not only helps study unstable electro-generated intermediates at room temperature, but also serves to investigate temperature-dependent properties of complexes. The first successful prototype of the unique Low Temperature OTTLE cell covering the whole UV-Vis-NIR-IR region was described in Applied Spectroscopy<\/em> 1994<\/strong>, 48, 1522. Version 1 has since been cited in 81 publications while Version 2 (with CaF2<\/sub> windows) has been cited in 41 publications. A significantly improved smaller commercial version of the low temperature OTTLE cell is now available (Collect. Czech. Chem. Commun.<\/em> 2003<\/strong>, 68, 1687). To date this cell has been employed in seven different laboratories in the UK, Germany, Italy, India and Australia.<\/p>\n

Low Temperature OTTLE cell features<\/h2>\n

\"Various<\/p>\n

In addition to many of the features of our Room Temperature OTTLE cell<\/a>, our Low Temperature OTTLE cell offers some unique advantages for temperature dependent measurements.<\/p>\n

Advanced, Iterative Design:<\/span><\/strong><\/span><\/p>\n

The product of more than 20 years of iterative design, we are proud to now be able to offer our user’s a cryostatted version of our extremely successful room temperature cell.\u00a0 In combination with the commercially available cryostat Optistat DN (OxfordInstruments<\/a>), our cell boasts:<\/p>\n