Silver Nanowires 100-200 nm

Product Name

Name：Silver Nanowires 100-200 nm

^{Product Overview}

 

One dimensional silver nanowires have unique structures and morphologies, as well as special optical, electrical, and chemical properties, which have attracted the interest of many researchers. Silver nanowires have excellent surface plasmon effect and conductivity, thermal conductivity, etc., and have shown great market application prospects in fields such as electronic devices, chemical catalysts, mechanical sensing, and high-end detection equipment. For example, adding it to conductive adhesive can significantly improve its conductivity and adhesion, resulting in a more linear conductive adhesive. The reason is that when we use silver nanowires, we can still construct a complete conductive network even at low solid content, thereby ensuring that the conductive adhesive has high conductivity and excellent adhesive strength. In addition, compared to silver sheets, it can also reduce the use of silver content and lower costs. At present, there are many reports using AgNWs as flexible transparent conductive films applied in transparent flexible OLEDs, and certain research results have been achieved.

At present, there are two main methods for preparing silver nanowires: top-down and bottom-up synthesis methods. The top-down preparation method means continuously reducing the size of block shaped materials through some physical methods, ultimately reaching the nanometer level. The commonly used methods include mechanical grinding and cutting, but this method is prone to causing stress inside the prepared nanomaterials, and also has significant limitations on the size of the prepared materials. Moreover, the smaller the size, the more difficult it is to prepare. And bottom-up means that the formation of nanomaterials is a process from small to large. Generally, chemical methods are used to transform ions into individual atoms or clusters, and these structural units continuously aggregate and grow in specific directions, forming nanomaterials with different morphologies. Our company's silver nanowires are prepared using the polyol reduction method, which belongs to a bottom-up approach. The reaction conditions are easy to control, and the prepared products have good dispersibility and are easy to apply and operate.

^{Technical Parameter}

Length: 100-200 nm    

diameter:30-80 μm（SEM:/span>

Concentration:10 mg/ml    

Solvent:Methanol、Ethanol or water

 

^{Product Features}

 

Conductivity: Silver nanowires have excellent conductivity and can be applied in high-performance electronic components, circuit transmission, and other fields.

Flexibility: The excellent flexibility of silver nanowires makes them widely applicable in fields such as flexible circuits and wearable devices.

Chemical stability: Silver nanowires have good chemical stability and can be applied in some fields that require high chemical stability.

Surface plasmon effect: The plasmon effect on the surface of silver nanowires can improve their response speed and performance in fields such as optoelectronic devices and biomedical applications.

Thermal conductivity: The high thermal conductivity of silver nanowires can be applied to high-performance heat sinks, heat pipes, and other applications.

Adjustable size: There are various diameters of silver nanowires to choose from.

Application Fields

 

 

In the field of electronics, silver nanowires have excellent conductivity and can be applied to high-performance electronic components, circuit transmission, and other applications such as touch screens and display panels.

Biomedical field: Silver nanowires have good chemical stability and can be applied in some fields that require high chemical stability, such as biosensors, drug delivery, gene therapy, etc.

In the field of energy, silver nanowires can be used to manufacture solar cells, fuel cells, and more.

Environmental field: Silver nanowires can be used for environmental monitoring, pollution control, etc.

Other fields: Silver nanowires can also be used to prepare high-performance composite materials, efficient catalysts, fine electronic materials, etc.

^{Related Information}

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