Connecting lignin and silica into nanocontainers

Thread starter nightmare00000
Start date Nov 3, 2014

In summary, combining lignin and silica into nanocontainers has various potential applications, such as improving material strength and thermal stability, enhancing drug delivery systems, and other biomedical uses. This is achieved through a chemical reaction that forms covalent bonds between the two compounds. The resulting nanocontainers possess high surface area, customizable pore sizes and shapes, and good stability and biocompatibility. These nanocontainers can be used in industries such as construction, pharmaceuticals, and environmental remediation. However, challenges include achieving uniform and stable connection and scaling up production.

Nov 3, 2014

nightmare00000

Hello,

Have someone know how to do nanocontainers from lignin with silica in? Then I want to use NaOH to encapsulate silica.

Greetings.

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Nov 8, 2014

Greg Bernhardt

Admin

Insights Author

Thanks for the post! Sorry you aren't generating responses at the moment. Do you have any further information, come to any new conclusions or is it possible to reword the post?

1. What is the significance of connecting lignin and silica into nanocontainers?

The combination of lignin and silica into nanocontainers has numerous potential applications, including improving the mechanical strength and thermal stability of materials, as well as enhancing drug delivery systems and other biomedical applications.

2. How are lignin and silica connected to form nanocontainers?

The process of connecting lignin and silica into nanocontainers involves a chemical reaction between the two compounds, resulting in the formation of covalent bonds. This can be achieved through various methods such as sol-gel synthesis or direct functionalization.

3. What properties do these nanocontainers possess?

The resulting nanocontainers have a high surface area and can be tailored to have specific pore sizes and shapes. They also have excellent stability and biocompatibility, making them suitable for a wide range of applications.

4. What are some potential applications of these nanocontainers?

These nanocontainers have potential uses in various industries, such as in the production of stronger and more durable building materials, as well as in drug delivery systems for targeted and controlled release of medications. They may also have applications in environmental remediation and energy storage.

5. What challenges are associated with connecting lignin and silica into nanocontainers?

One of the main challenges is achieving a uniform and stable connection between lignin and silica, as well as controlling the size and shape of the resulting nanocontainers. Another challenge is scaling up the production process to meet the demand for these nanocontainers in various industries.