Rapid Synthesis of Silver Nanowires in the Polyol Process with Conventional and Microwave Heating

Dzido, Grzegorz; Smolska, Aleksandra; Farooq, Muhammad

doi:10.3390/app13084963

Cited by 7 publications

(1 citation statement)

References 51 publications

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“…The previous strategies, such as the hard method and its types, are complicated, require special conditions, and take a long time. Usually, the traditional polyol technique requires more than 12 h in an environment filled with inert gas and involves multiple steps [24][25][26]. Additionally, the produced nanowires lack controlled morphology, which serves as our motivation for undertaking this research [27,28].…”

Section: Introductionmentioning

confidence: 99%

Developing a Simple, Effective, and Quick Process to Make Silver Nanowires with a High Aspect Ratio

et al. 2023

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A growing number of people are interested in using silver nanowires (AgNWs) as potential transparent and conductive materials. The production of high-performance and high-throughput AgNWs was successfully optimized in this work using a one-step, straightforward, and reproducible modified polyol approach. The factors influencing the morphology of the silver nanowires have undergone extensive research in order to determine the best-optimized approach for producing AgNWs. The best AgNW morphology, with a length of more than 50 m and a diameter of less than 35 nm (aspect ratio is higher than 1700), was discovered to be produced by a mixture of 44 mM AgNO3, 134 mM polyvinylpyrrolidone (PVP) (Mo.Wt 40,000), and 2.4 mM KCl at 160 °C with a stirring rate of 100 rpm. With our improved approach, the overall reaction time was cut from almost an hour with the conventional polyol method to a few minutes. Scanning electron microscopy (SEM), X-ray diffraction (XRD), and ultraviolet (UV) spectroscopy were used to characterize AgNWs. The resultant AgNWs’ dispersion was cleaned using a centrifuge multiple times before being deposited on glass and PET substrates at room temperature. In comparison to commercial, delicate, and pricey indium-doped tin oxide (ITO) substrates, the coated samples displayed exceptionally good sheet resistance of 17.05/sq and optical haze lower than 2.5%. Conclusions: Using a simple one-step modified polyol approach, we were able to produce reproducible thin sheets of AgNWs that made excellent, flexible transparent electrodes.

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Section: Introductionmentioning

confidence: 99%

Developing a Simple, Effective, and Quick Process to Make Silver Nanowires with a High Aspect Ratio

et al. 2023

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Ternary Ni−Sb−Te Nanoparticles by Co‐Reduction in a One‐Pot Microwave‐Assisted Polyol Process

Wang,

Carrillo‐Aravena,

Roslova

et al. 2024

Eur J Inorg Chem

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Utilizing the polyol process to produce ternary or multinary phases is a challenge due to the different redox potentials of the components. We succeeded in synthesizing compounds in the composition range Ni4–δ(SbxTe1–x)6 (–0.20 ≤ δ ≤ 0.36, 0.13 ≤ x ≤ 0.3) by heating a basic ethylene glycol solution containing nickel(II) acetate, antimony(III) acetate, and ammonium tellurate(VI) in a microwave at 280 °C for 25 min without adding auxiliary reducing agents. The products consist of thin nano‐platelets, which can be transformed into larger crystals by annealing. Single crystal X‐ray diffraction revealed a new structure type for the composition Ni4–δ(Sb0.25Te0.75)6 (x = 0.25) in the space group P‐3m1 with a = 3.897(1) Å and c = 15.701(1) Å. The triple superstructure of the NiAs type is due to a complex concentration profile of the Ni atoms in the octahedral voids. The trigonal TlCdS2 type is found for lower Sb contents (0 ≤ x ≤ 0.20), while for higher Sb content (x ≥ 0.28) the hexagonal Ni2SbTe2 type is adopted, which both are ordering variants of the NiAs type. Ni4–δ(Sb0.25Te0.75)6 is paramagnetic and exhibits poor metallic conductivity in the temperature range 6 K ≤ T ≤ 300 K.

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Green synthesis of one-dimensional silver nanoparticles using Quercus infectoria gall extract

Purbowati,

Kirana,

Rozafia

et al. 2024

Case Studies in Chemical and Environmental Engineering

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Rapid Synthesis of Silver Nanowires in the Polyol Process with Conventional and Microwave Heating

Cited by 7 publications

References 51 publications

Developing a Simple, Effective, and Quick Process to Make Silver Nanowires with a High Aspect Ratio

Developing a Simple, Effective, and Quick Process to Make Silver Nanowires with a High Aspect Ratio

Ternary Ni−Sb−Te Nanoparticles by Co‐Reduction in a One‐Pot Microwave‐Assisted Polyol Process

Green synthesis of one-dimensional silver nanoparticles using Quercus infectoria gall extract

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