Development and use of optical sensors in modern analytical chemistry
Sammanfattning
A successful long-term high resolution imaging experiment in marine sediments was performed (17 days within the sample; Paper I). The time correlated calibration procedure was evolved to include parametric sigmoidal and logarithmic functions to provide three of the best performing (optical) pH sensors available up to date (Papers II, III and IV), precision of these sensors were in the 0.0029 – 0.0057 pH units range. New pH sensors have been developed using three different immobilization techniques (Papers II, III and IV). The first experiments using a pH optode to image cellular responses were demonstrated (Paper III). A long (over 3 pH units) linear dynamic range (for an optode) with high performance was shown (Paper IV). Possibly a simple linear normalization method for salinity within the sample matrix was realized (Paper IV). Photoacidity and its change due to immobilization was recognized and utilized as an important feature for optical pH measurements (Paper II). A plasmon enhancement/quenching based fluorescent technique using functionalized gold nanoparticles was developed and implemented on a co-extraction based ammonium sensor (Paper V). This technique demonstrated a limit of detection three orders of magnitude better than previous ammonium sensors (LOD = 1.7 nM vs. ~ 1 µM), and can directly be implemented on more than 25 other cationic species.
Delarbeten
Hakonen, A. ;Hulth, S.; Dufour, S., Analytical performance during ratiometric long-term imaging of pH in bioturbated sediments.
Talanta 2010, ::doi::10.1016/j.talanta.2010.02.041 Hakonen, A.; Hulth, S., A high-precision ratiometric fluorosensor for pH: Implementing time-dependent non-linear calibration protocols for drift compensation.
Analytica Chimica Acta 2008, 606, (1), 63-71. ::doi::10.1016/j.aca.2007.10.035 Stromberg , N.; Mattson, E.; Hakonen, A., An imaging pH-optode for cell studies based on covalent attachment of 8-hydroxypyrene-1,3,6-trisulfonate to amino cellulose acetate films.
Analytica Chimica Acta 2009, 636, (1), 89-94. ::doi::10.1016/j.aca.2009.01.045 Hakonen, A.; Hulth, S., A high-performance fluorosensor for pH measurements between 6 and 9.
Talanta 2010, 80, (5), 1964-1969. ::doi::10.1016/j.talanta.2009.10.055 Hakonen, A., Plasmon enhancement and surface wave quenching for phase ratiometry in coextraction based fluorosensors.
Analytical Chemistry 2009, 81, (11), 4555-4559. ::doi::10.1021/ac8025866
Examinationsnivå
Doctor of Philosophy
Universitet
University of Gothenburg. Faculty of Science
Institution
Department of Chemistry ; Institutionen för kemi
Disputation
Friday, April 23 at 14:00 in KA, Kemigården 4, Göteborg
Datum för disputation
2010-04-23
E-post
hakonen@chem.gu.se
Datum
2010-04-09Författare
Hakonen, Aron
Nyckelord
Optical sensors
Optodes
Imaging sensors
Fluorescence
Nanonparticle enhancement
Plasmonics
Publikationstyp
Doctoral thesis
ISBN
978-91-628-8095-8
Språk
eng