Humidity sensing of Mg doped MCM-41 on silver sputtered thin films

“…There are several reports about the versatility of MCM‐41@Ag nanocomposites obtained using common reducing agents (sodium borohydride, formaldehyde, ethylene glycol) and surfactants (PVP) and their applications in drug delivery, [10] catalysis, [11] as antibacterial components, [12] among other uses. However, the development of electronic devices has not been fully explored in the literature, with reports on their integration into sensor configurations being scarce [13] …”

“…However, the development of electronic devices has not been fully explored in the literature, with reports on their integration into sensor configurations being scarce. [13] In this paper, the synthesis of AgNPs using natural reducing agents obtained from Camellia Sinensis (green tea), Equisetum myriochaetum (Mexican giant horsetail) leaves, Syzygium aromaticum (clove), Cymbopogon citratus (lemon tea), Chamaemelum nobile (chamomile tea), orange, apple juice, Arabic gum, and chitosan under different synthesis conditions is reported. The phytochemicals contained in the natural extracts, acting either as reducing, stabilizing agents or both, have an effect on particle size.…”

Controlling Size Distribution of Silver Nanoparticles using Natural Reducing Agents in MCM‐41@Ag

“…There are several reports about the versatility of MCM‐41@Ag nanocomposites obtained using common reducing agents (sodium borohydride, formaldehyde, ethylene glycol) and surfactants (PVP) and their applications in drug delivery, [10] catalysis, [11] as antibacterial components, [12] among other uses. However, the development of electronic devices has not been fully explored in the literature, with reports on their integration into sensor configurations being scarce [13] …”

“…However, the development of electronic devices has not been fully explored in the literature, with reports on their integration into sensor configurations being scarce. [13] In this paper, the synthesis of AgNPs using natural reducing agents obtained from Camellia Sinensis (green tea), Equisetum myriochaetum (Mexican giant horsetail) leaves, Syzygium aromaticum (clove), Cymbopogon citratus (lemon tea), Chamaemelum nobile (chamomile tea), orange, apple juice, Arabic gum, and chitosan under different synthesis conditions is reported. The phytochemicals contained in the natural extracts, acting either as reducing, stabilizing agents or both, have an effect on particle size.…”

Controlling Size Distribution of Silver Nanoparticles using Natural Reducing Agents in MCM‐41@Ag

“…[9][10][11][12][13] Its capabilities, especially in the field of catalytic activity, all come from its unique properties, such as high surface area ($1000 m 2 g −1 ), narrow pore size distribution, uniform pore size, and the possibility of adjusting the diameter of the pores between 2 and 10 nm. These features result in high thermal stability and the possibility of using it in a wide range of applications such as catalization, [13][14][15] isolation, [16][17][18] photocatalysis, [19][20][21] sensors, [22][23][24] absorption, [25][26][27] and so forth. [28] Moreover, in order to make such compounds more applicable in terms of recyclability, use of magnetic nanoparticles (MNPs) for the preparation of nanocomposites is so helpful leading to their simple recovery by using an external magnetic field, which increases their performance in the next reuses.…”

Fe₃O₄@MCM‐41@ZrCl₂: A novel magnetic mesoporous nanocomposite catalyst including zirconium nanoparticles for the synthesis of 1‐(benzothiazolylamino)phenylmethyl‐2‐naphthols

Impedimetric humidity sensing studies of Ag doped MCM-41 mesoporous silica coated on silver sputtered interdigitated electrodes