Method of multi-layer near-field electrohydraulic printing and sintering of nano-silver ink prepared by liquid phase reduction

It has many advantages with liquid phase reduction method to prepare the nano-silver, such as experimental conditions are simple, low cost, energy-saving, etc.. At the same time, the nano silver powder prepared by this method has high surface activity, catalytic property and wide usage. In this paper, nano-silver powder was prepared by changing the amount of protective agents with chemical liquid phase reduction method. This paper focuses on the impact of the amount of protective agent on the nano-silver. In addition, we also analyzed the reaction temperature, PH value of solution, viscosity and electrical conductivity on the preparation of nano-silver. Finally, test results from the TEM shows that the nano-silver was prepared with smaller size, uniform size and good dispersion.

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The Preparation of High Concentration Silver Nanoplates with Liquid-Phase Reduction Method

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.562-565.627 ◽

2013 ◽

Vol 562-565 ◽

pp. 627-631

Author(s):

Ji Lan Fu ◽

Li Xin Mo ◽

Ya Ling Li ◽

Wei Wei Li ◽

Wen Bo Li ◽

...

Keyword(s):

Silver Nanoparticles ◽

Liquid Phase ◽

Reduction Method ◽

Deionized Water ◽

Molar Ratio ◽

Plasmonic Nanostructures ◽

High Concentration ◽

Nano Silver ◽

Silver Nanoplates ◽

Phase Reduction

Silver nanoplates, also referred to as nanoprisms or nanodisks, are two-dimensional plasmonic nanostructures that have attracted intensive attention due to their strong shape-dependent optical properties and related applications. In order to obtain the silver nanoplates with high concentration, the liquid-phase reduction method was adopted. Silver nanoparticles colloid was obtained by reducing the high molar concentration of AgNO3 (up to 3.17 M) with the hydrazine hydrate (H4N2 • H2O) as reductant in the presence of polyethylene pyrrole (PVP) as the protectant. 0.5 M Sodium Citrate is introduced into the precursor aqueous which containing AgNO3 and PVP, the molar ratio of PVP to AgNO3 was tuned from 0.64 to 1.5. When molar is 1.5, the mainly particles are silver nanospheres, on the contrary, the nanospheres are transferred into nanoplates as the ratio decreased gradually, until the mainly product are nanoplates. The constituent of the silver nano-clusters was established by performing the Powder X-ray diffraction. The nano-silver dispersion with average diameter is about 113.2 nm were finally deserved. The size distribution of the silver nanoparticles is recorded by the Zeta potential analyzer. Scanning electron microscope (SEM) was used to characterize the morphology of the nano-silver particles. The silver content is about 3%. Nano-silver colloid is obtained and purified by centrifugation and wash with deionized water and ethanol. Then, water-based silver conductive ink is obtained by adding some amount deionized water and additives and adjusted parameters, which could be widely used in printed electronics.

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Feasibility of improving the quality of dirty manganese ores in furnaces used for the liquid-phase reduction of iron

Metallurgist ◽

10.1007/bf02467041 ◽

1999 ◽

Vol 43 (11) ◽

pp. 473-477

Author(s):

E. F. Vegman ◽

S. E. Lazutkin ◽

S. S. Lazutkin

Keyword(s):

Liquid Phase ◽

Manganese Ores ◽

Phase Reduction ◽

Reduction Of Iron

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Preparation of nickel–silver core–shell nanoparticles by liquid-phase reduction for use in conductive paste

Journal of Experimental Nanoscience ◽

10.1080/17458080.2015.1012751 ◽

2015 ◽

Vol 10 (17) ◽

pp. 1347-1356 ◽

Cited By ~ 11

Author(s):

Jun Jie Jing ◽

Jimin Xie ◽

Gao Yuan Chen ◽

Wen Hua Li ◽

Ming Mei Zhang

Keyword(s):

Liquid Phase ◽

Core Shell ◽

Shell Nanoparticles ◽

Nickel Silver ◽

Phase Reduction ◽

Core Shell Nanoparticles ◽

Silver Core

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Analyzing the critical mixing time for the liquid-phase reduction synthesis of monodisperse gold nanoparticles using glass microfluidics

Microfluidics and Nanofluidics ◽

10.1007/s10404-021-02517-9 ◽

2022 ◽

Vol 26 (2) ◽

Author(s):

Hiromasa Yagyu ◽

Mao Hamamoto ◽

Yuanwei Wang

Keyword(s):

Gold Nanoparticles ◽

Liquid Phase ◽

Mixing Time ◽

Phase Reduction ◽

Glass Microfluidics ◽

Critical Mixing

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Preparation and application of water-based nano-silver conductive ink in paper-based 3D printing

Rapid Prototyping Journal ◽

10.1108/rpj-05-2020-0112 ◽

2021 ◽

Vol ahead-of-print (ahead-of-print) ◽

Author(s):

Chenfei Zhao ◽

Jun Wang ◽

Lini Lu

Keyword(s):

Flexible Electronics ◽

Low Cost ◽

Methyl Cellulose ◽

Conductive Ink ◽

Content Type ◽

Nano Silver ◽

Printed Circuit ◽

Silver Ink ◽

Sintering Time ◽

Water Based

Purpose In flexible electronics applications, organic inks are mostly used for inkjet printing. Three-dimensional (3 D) printing technology has the advantages of low cost, high speed and good precision in modern electronic printing. The purpose of this study is to solve the high cost of traditional printing and the pollution emissions of organic ink. It is necessary to develop a water-based conductive ink that is easily degradable and can be 3 D printed. A nano-silver ink printed circuit pattern with high precision, high conductivity and good mechanical properties is a promising strategy. Design/methodology/approach The researched nano-silver conductive ink is mainly composed of silver nanoparticles and resin. The effect of adding methyl cellulose on the ink was also explored. A simple 3 D circuit pattern was printed on photographic paper. The line width, line length, line thickness and conductivity of the printed circuit were tested. The influence of sintering temperature and sintering time on pattern resistivity was studied. The relationship between circuit pattern bending performance and electrical conductivity is analyzed. Findings The experimental results show that the ink has the characteristics of low silver content and good environmental protection effect. The printing feasibility of 3 D printing circuit patterns on paper substrates was confirmed. The best printing temperature is 160°C–180°C, and the best sintering time is 30 min. The circuit pattern can be folded 120°, and the cycle is folded more than 60 times. The minimum resistivity of the circuit pattern is 6.07 µΩ·cm. Methyl cellulose can control the viscosity of the ink. The mechanical properties of the pattern have been improved. The printing method of 3 D printing can significantly reduce the sintering time and temperature of the conductive ink. These findings may provide innovation for the flexible electronics industry and pave the way for alternatives to cost-effective solutions. Originality/value In this study, direct ink writing technology was used to print circuit patterns on paper substrates. This process is simple and convenient and can control the thickness of the ink layer. The ink material is nonpolluting to the environment. Nano-silver ink has suitable viscosity and pH value. It can meet the requirements of pneumatic 3 D printers. The method has the characteristics of simple process, fast forming, low cost and high environmental friendliness.

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Preparation of Liquid-Phase Reduction Method-Based Pt/TiO2 Catalyst and Reaction Characteristics during HCHO Room-Temperature Oxidation

Industrial & Engineering Chemistry Research ◽

10.1021/acs.iecr.0c02059 ◽

2020 ◽

Vol 59 (35) ◽

pp. 15489-15496

Author(s):

Hanki Eom ◽

In-hyuck Hwang ◽

Dong Yoon Lee ◽

Sang Moon Lee ◽

Sung Su Kim

Keyword(s):

Liquid Phase ◽

Room Temperature ◽

Reduction Method ◽

Temperature Oxidation ◽

Tio2 Catalyst ◽

Phase Reduction ◽

Reaction Characteristics

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Micromorphology and Characterization of V2O3 Nanoparticles Produced by the Liquid Phase Reduction-Heat Treatment

Materials Science Forum ◽

10.4028/www.scientific.net/msf.944.650 ◽

2019 ◽

Vol 944 ◽

pp. 650-656

Author(s):

Ming Rui Zhang ◽

Yuan Qin ◽

Dao Zhang ◽

Guang Yuan Wang ◽

Sen Yang

Keyword(s):

Heat Treatment ◽

Phase Composition ◽

Liquid Phase ◽

Thermal Treatment ◽

Oxalic Acid ◽

Structure And Morphology ◽

Phase Reduction ◽

Novel Method ◽

Composition Structure

The liquid phase reduction-heat treatment has been used to prepare V2O3nanoparticles in this paper. It is a novel method that the precursor was developed by Oxalic acid dehydrate (H2C2O4·2H2O) reduction of V2O5powder in anhydrous ethanol. V2O3nanoparticles were successfully obtained by thermal treatment of the precursor. The phase, composition, structure, and morphology of the as-obtained samples were verified by XRD, XPS, SEM and TEM measurements. Meanwhile, the possible formation mechanism of V2O3in the heat-treatment is briefly discussed by analyzing the DSC.

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