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Nanosensors monolithic

The aim of this chapter is to provide details of a new class of nanosensor based on mesoporous silica monoliths with cage-like pores as carriers. Comprehensive up-to-date information is provided regarding the environmental chemistry and toxicity of mercury, antimony, cadmium and lead, in the quest to design simple, eco-friendly and smart sensing systems. A critical review of the literature is also provided in terms of the chemical toxicity of mercury, antimony, cadmium and lead, and their treatments with different processes and under varying environmental condihons. [Pg.163]

Figure 5.1 NMR spectra of (a) calcined HOM-CIO monoliths (b) functionalized TMAC/HOM-CIO monoliths and (c) HOM/TMAC/TPPS nanosensor. Figure 5.1 NMR spectra of (a) calcined HOM-CIO monoliths (b) functionalized TMAC/HOM-CIO monoliths and (c) HOM/TMAC/TPPS nanosensor.
Figure 5.2 FTIR spectra of (a) cage silica monoliths (HOM-CIO) (b) functionalized MPTS/HOM-CIO (c) functionalized HSO3/HOM-CIO and (d) cage HOM-TMPyP nanosensors. Figure 5.2 FTIR spectra of (a) cage silica monoliths (HOM-CIO) (b) functionalized MPTS/HOM-CIO (c) functionalized HSO3/HOM-CIO and (d) cage HOM-TMPyP nanosensors.
See other pages where Nanosensors monolithic is mentioned: [Pg.3698]    [Pg.183]    [Pg.189]    [Pg.3698]    [Pg.183]    [Pg.189]    [Pg.1934]    [Pg.3699]    [Pg.163]    [Pg.175]    [Pg.177]    [Pg.185]    [Pg.190]    [Pg.202]   


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