Kim Granholm scite author profile

A new type of all-solid-state reference electrode was designed and characterized. The electrodes are based on a polymer/inorganic salt composite and a silver/silver chloride reference element. A rigorous testing procedure was used to reveal the possible influence of pH, solution composition, as well as the concentration and mobility of ions. The tests demonstrated the insensitivity of the electrodes to the matrix effects, excellent stability of the potential readings, and significantly reduced leakage of inorganic salt. In the performed tests the composite reference electrodes were on a par with or better than the high-quality commercial reference electrodes. The reference electrodes described here are of analytical quality allowing for continuous, prolonged, and intensive usage.

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Analytical quality solid-state composite reference electrode manufactured by injection moulding

Granholm

Mousavi

Sokalski

et al. 2013

J Solid State Electrochem

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Sorption of metal ions from aqueous solution to spruce bark

Granholm

Pranovich

et al. 2013

Wood Sci Technol

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All-solid-state electrochemical platform for potentiometric measurements

Mousavi

Granholm

Sokalski

et al. 2015

Sensors and Actuators B: Chemical

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Sorption of metal ions to untreated, alkali-treated and peroxide-bleached TMP

Granholm

Pranovich

et al. 2010

Cellulose

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Knowledge about how different metal ions are bound to pulp fibers is very important for optimal metal management in pulping processes. A column chromatographic method was used to assess the differences in affinity of 14 metal ions to untreated, alkali-treated and peroxide-bleached thermomechanical pulp (TMP). A method of competition between cations in the column chromatographic experiments was used in the sorption experiments, with an excess of each metal ion compared to the total capacity of the pulp studied. The method is very sensitive and even small differences in affinities can be detected. By combining the results from sorption experiments with four different metal ion mixtures the following order of affinity was obtained: types of pulps showed the same affinity order. Lead and copper ions were clearly most strongly bound to the pulp fibers. Within the alkali and alkaline earth metal groups the differences in affinity were quite small. The sorption of metal ions to pulp fibers takes place mainly by complexation, where the divalent metal ions are coordinated to functional groups (acid groups) in the fiber phase. Protonation constants and concentrations of acid groups were determined by potentiometric titration. A model with two carboxyl groups and two phenolic hydroxyl groups satisfied best the experimental data. By treatment with alkali and peroxide new acid groups were created and the total binding capacity of hydrogen ions increased from 137 leq/g for untreated pulp to 187 and 228 leq/g for alkali-treated and peroxide-treated pulp, respectively.

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Kim Granholm

An analytical quality solid-state composite reference electrode

Analytical quality solid-state composite reference electrode manufactured by injection moulding

Sorption of metal ions from aqueous solution to spruce bark

All-solid-state electrochemical platform for potentiometric measurements

Sorption of metal ions to untreated, alkali-treated and peroxide-bleached TMP

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