2002
DOI: 10.1016/s0022-3093(02)01154-7
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Characterisation of porosity and sensor response times of sol–gel-derived thin films for oxygen sensor applications

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Cited by 124 publications
(102 citation statements)
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“…19 The increase in the molar water:alkoxide ratio induced decreased the film thickness, shrinkage and pore volume of sol-gel films due to faster hydrolysis and condensation rates. 20 Films obtained with water:alkoxide ratios above 2.5 were blue in color (Fig. 2b), also presenting significant aggregation of the dry form.…”
Section: Optimization Of Thionine Sol-gel Film Preparationmentioning
confidence: 98%
“…19 The increase in the molar water:alkoxide ratio induced decreased the film thickness, shrinkage and pore volume of sol-gel films due to faster hydrolysis and condensation rates. 20 Films obtained with water:alkoxide ratios above 2.5 were blue in color (Fig. 2b), also presenting significant aggregation of the dry form.…”
Section: Optimization Of Thionine Sol-gel Film Preparationmentioning
confidence: 98%
“…This approach provides the preparation of more uniform, optically transparent, thin, and crack-free sol-gel films compared to the IL-free composites. 84,99 The addition of an IL reduced the interfacial energy and thereby decreased the capillary pressure in the "walls" of the gel pores exerted by the liquid inside the capillaries when drying. 84,99 Due to the reduced risk of a fracture, the sensor stability increased.…”
Section: ·1 Ionic Liquids As Solvents For the Synthesis Of Sensor Mamentioning
confidence: 99%
“…84,99 The addition of an IL reduced the interfacial energy and thereby decreased the capillary pressure in the "walls" of the gel pores exerted by the liquid inside the capillaries when drying. 84,99 Due to the reduced risk of a fracture, the sensor stability increased. The sol-gels with the embedded ruthenium complex tris(2,2′-bipyridyl)ruthenium(II) chloride, [Ru(bipy)3]Cl2 × 6H2O (Fig.…”
Section: ·1 Ionic Liquids As Solvents For the Synthesis Of Sensor Mamentioning
confidence: 99%
“…[10][11][12][13] In addition, modifications of the BDD surface have been employed for a number of specific applications. [14][15][16][17][18][19][20][21][22][23][24][25][26][27][28][29][30] Thus, Duo et al 14 have studied the deposition of small quantities of IrO 2 clusters on the BDD surface by a thermal decomposition technique and observed that the oxygen evolution reaction (OER) was dramatically enhanced with the surface modification. De Battisti et al 15 have reported Sol-Gel modifications of the BDD surface with RuO 2 and IrO 2 and used chlorine evolution as a model reaction to evaluated the effect of RuO 2 modification on BDD films.…”
Section: Introductionmentioning
confidence: 99%
“…Thus, Mattos-Costa et al 26 have constructed Ti/Ru x Ir 1-x O 2 electrodes to be used as anodes under extreme conditions and Suffredini et al 27 have prepared NiCo 2 O 4 coatings on Ni using the Sol-Gel method to produce an efficient material for oxygen evolution in alkaline media. Several other authors have prepared Sol-Gel films of Ga-Zn oxide 28 as well as tetraethoxysilane (TEOS) and methyltriethoxysilane (MTEOS)-based films 29 were prepared to be used as oxygen sensors while, for the first time, modified carbon powder electrodes were recently produced by the Sol-Gel method to be used as anodes in direct methanol fuel cells. 30 The aim of this work is to extend our previous findings on the Sol-Gel modification of the BDD surface 22 to different catalytic coatings such as metal oxides (MO 2 , M = Pb, Ru, and Ir) and analyze their surface topologies by atomic force microscopy (AFM) and electrochemical active area by comparative studies with a polycrystalline Pt electrode.…”
Section: Introductionmentioning
confidence: 99%