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Ultra-sensitive optical oxygen sensors for characterization of nearly anoxic systems

2014; Nature Portfolio; Volume: 5; Issue: 1 Linguagem: Inglês

10.1038/ncomms5460

2041-1723

Philipp Lehner, Christoph Staudinger, Sergey M. Borisov, Ingo Klimant,

Electrochemical sensors and biosensors

Oxygen quantification in trace amounts is essential in many fields of science and technology. Optical oxygen sensors proved invaluable tools for oxygen measurements in a broad concentration range, but until now neither optical nor electrochemical oxygen sensors were able to quantify oxygen in the sub-nanomolar concentration range. Herein we present new optical oxygen-sensing materials with unmatched sensitivity. They rely on the combination of ultra-long decaying (several 100 ms lifetime) phosphorescent boron- and aluminium-chelates, and highly oxygen-permeable and chemically stable perfluorinated polymers. The sensitivity of the new sensors is improved up to 20-fold compared with state-of-the-art analogues. The limits of detection are as low as 5 p.p.b., volume in gas phase under atmospheric pressure or 7 pM in solution. The sensors enable completely new applications for monitoring of oxygen in previously inaccessible concentration ranges. Accurately detecting low concentrations of oxygen is important in many fields, but current detection systems have limited sensitivity. Here, the authors report sensor materials based on phosphorescent boron or aluminium complexes in perfluorinated polymers, capable of detecting oxygen down to picomolar levels.