Synthetic incorporation of palladium-nickel bimetallic nanoparticles within mesoporous silica/silica nanoparticles as efficient and cheaper catalyst for both cationic and anionic dyes degradation

Pandey, Poornima; Mitra, Murli Dhar; Tiwari, Atul; Singh, Shwarnima

doi:10.1080/10934529.2021.1886793

Cited by 8 publications

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“…They demonstrated that the bimetallic catalyst worked much better as a catalyst than the monometallic catalysts in the control condition. [18][19][20][21][22][23][24][25][26] Nanoparticles of anatase TiO 2 represented by a significant specific surface area and pronounced lattice deformation, have been freely available catalyst that readily adsorb OH on their surface, facilitating the cleavage of the NÀ H bond in N 2 H 4 . [27] Accordingly, catalysts supported by TiO 2 show superior adsorption efficiency and a high level of catalytic activity, if the hydrogen source is to be hydrazine hydrate.…”

Section: Introductionmentioning

confidence: 99%

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Organotrialkoxysilanes Mediate the Syntheses of Fluorescent Gold Nanoparticles and TiO₂‐Supported Ag−Ni Nanocatalysts for Selective Hydrazine Sensing and Decomposition

Mitra,

Singh,

Singh

et al. 2023

ChemistrySelect

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Organotrialkoxysilanes enabled the controlled synthesis of mono‐metallic and bimetallic noble metal nanoparticles. 3‐Aminopropyltrimethoxysilane (3‐APTMS)‐treated gold cations were quickly (1 minute) transformed into gold nanoparticles (AuNPs) in the presence of 3‐glycidoxypropyltrimethoxysilane (3‐GPTMS). As made AuNPs demonstrated exceptional fluorescence properties with 15 % QY, and the blue fluorescence of nanomaterials is supported by CIE coordinates. Fluorescent gold nanoparticles were evaluated using UV‐ Visible spectroscopy, X‐ray photoelectron spectroscopy (XPS), zeta potential, X‐ray diffraction (XRD), fluorescence spectroscopy (FL), and transmission electron microscopy (TEM), mediated by the use of organotrialkoxysilanes, gold nanoparticles with an average particle size of 4–8 nm were produced, which could be helpful for the direct determination of hydrazine via fluorescence spectroscopy. The detection limit for hydrous hydrazine is 0.047 μM, with a linear range of 0.1–1 μM (R2=0.995). In addition, organotrialkoxysilanes were also used as templates for the stabilization and formation of supported TiO2 bimetallic Ag−Ni nanoparticles for use as photo‐nanocatalysts. TiO2‐supported bimetallic Ag−Ni nanocatalyst were characterized by field emission scanning electron microscope (FE SEM), EDX, elemental mapping, and the Brunauer‐Emmett‐Teller (BET) technique. Real‐time hydrazine decomposition was enabled by the as‐built heterogeneous support in the presence of sunlight.

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Section: Introductionmentioning

confidence: 99%

“…compiled four different types of bimetal nanoparticle (NP) catalysts: Ni/Pd, Rh/Ni, Ni/Ir, and Ni/Pt. They demonstrated that the bimetallic catalyst worked much better as a catalyst than the monometallic catalysts in the control condition [18–26] …”

Section: Introductionmentioning

confidence: 99%

Organotrialkoxysilanes Mediate the Syntheses of Fluorescent Gold Nanoparticles and TiO₂‐Supported Ag−Ni Nanocatalysts for Selective Hydrazine Sensing and Decomposition

Mitra,

Singh,

Singh

et al. 2023

ChemistrySelect

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Synthesis of nanoparticles using microorganisms and their applications: a review

Jadoun

Chauhan²,

Zarrintaj

et al. 2022

Environ Chem Lett

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Unsupported and silica-supported nickel nanoparticles: synthesis and application in catalysis

2022

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Synthetic incorporation of palladium-nickel bimetallic nanoparticles within mesoporous silica/silica nanoparticles as efficient and cheaper catalyst for both cationic and anionic dyes degradation

Cited by 8 publications

References 31 publications

Organotrialkoxysilanes Mediate the Syntheses of Fluorescent Gold Nanoparticles and TiO₂‐Supported Ag−Ni Nanocatalysts for Selective Hydrazine Sensing and Decomposition

Organotrialkoxysilanes Mediate the Syntheses of Fluorescent Gold Nanoparticles and TiO₂‐Supported Ag−Ni Nanocatalysts for Selective Hydrazine Sensing and Decomposition

Synthesis of nanoparticles using microorganisms and their applications: a review

Unsupported and silica-supported nickel nanoparticles: synthesis and application in catalysis

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Synthetic incorporation of palladium-nickel bimetallic nanoparticles within mesoporous silica/silica nanoparticles as efficient and cheaper catalyst for both cationic and anionic dyes degradation

Cited by 8 publications

References 31 publications

Organotrialkoxysilanes Mediate the Syntheses of Fluorescent Gold Nanoparticles and TiO2‐Supported Ag−Ni Nanocatalysts for Selective Hydrazine Sensing and Decomposition

Organotrialkoxysilanes Mediate the Syntheses of Fluorescent Gold Nanoparticles and TiO2‐Supported Ag−Ni Nanocatalysts for Selective Hydrazine Sensing and Decomposition

Synthesis of nanoparticles using microorganisms and their applications: a review

Unsupported and silica-supported nickel nanoparticles: synthesis and application in catalysis

Contact Info

Product

Resources

About

Organotrialkoxysilanes Mediate the Syntheses of Fluorescent Gold Nanoparticles and TiO₂‐Supported Ag−Ni Nanocatalysts for Selective Hydrazine Sensing and Decomposition

Organotrialkoxysilanes Mediate the Syntheses of Fluorescent Gold Nanoparticles and TiO₂‐Supported Ag−Ni Nanocatalysts for Selective Hydrazine Sensing and Decomposition