Nanomaterial Manufacturing Services

Nanomaterials have emerged as a cutting-edge field of research and technological development, offering a myriad of opportunities across various industries. The unique properties of nanomaterials also pave the way for innovative and effective solutions to environmental challenges, contributing to sustainable development and ecological preservation. Our company, a leader in the field of biotechnology and nanomaterial manufacturing services, is at the forefront of this exciting field, offering customized solutions to meet the diverse needs of researchers, diagnostics manufacturers, biopharma customers and industrial users.

Overview of Nanomaterial

Nanomaterials are materials whose dimensions are in the nanoscale range, typically 1-100 nanometers. Due to the special properties of the nanometer scale, nanomaterials exhibit many properties that are different from ordinary-sized materials. Nanomaterials have the characteristics of large specific surface area, small size effect and quantum effect, which make them have broad application prospects in materials science, chemistry, medicine and other fields.

Fig.1 Synthesis and application of nanoparticles. (Osman, A. I, et al., 2024)

Synthesis Methods of Nanomaterials

There are various methods of synthesizing nanomaterials, and different methods can be used for synthesis according to the properties and application requirements of the materials. The following are some common methods of nanomaterial synthesis:

• Chemical synthesis
  Chemical synthesis is one of the most commonly used nanomaterial synthesis methods. By controlling the reaction conditions, ratio and reaction time, nanoparticles with specific shapes and sizes can be synthesized.
• Vapor phase synthesis
  Vapor phase synthesis is a method of synthesizing nanomaterials in the gas phase. Common vapor phase synthesis methods include chemical vapor deposition (CVD) and thermal evaporation (Thermal Evaporation).
• Sol-gel method
  The sol-gel method is a method for synthesizing nanomaterials through gelation and heat treatment of sol in solution. By controlling the composition and gelation conditions of the sol, nanoparticles or nanoporous materials with specific morphology and size can be synthesized.
• Electrochemical synthesis
  Electrochemical synthesis is a method that uses electrochemical reactions to synthesize nanomaterials. By applying voltage or current to appropriate precursor species in an electrochemical cell, nanomaterials with specific morphologies and sizes can be synthesized on electrodes.
• Biosynthesis
  Biosynthesis is a method of synthesizing nanomaterials using organisms (such as bacteria, fungi, plants) or their metabolites. For example, by utilizing the chlorophyll of plants or the enzyme activity of bacteria, nanomaterials with specific functions and morphologies can be synthesized

Classification of Nanomaterials

Fig.2 Nanoparticle classification, physicochemical properties(Joudeh, N., & Linke, et al., 2022).

Our Services

Our company has extensive synthesis technology and experience and can provide customized nanomaterial synthesis services based on customer requirements and application needs. By precisely controlling synthesis conditions and optimizing the synthesis process, we can synthesize high-quality and functional nanomaterials to provide strong support for customers' research and applications.

Nanomaterial Synthesis

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Nanomaterials Characterization

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Nanoparticle Modification

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Customization Capabilities of Nanomaterials

Our company has strong capabilities in the customization of nanomaterials. We understand that each customer's needs are unique, so we are committed to providing customized solutions to meet those needs.

• Classification
  Our researchers can synthesize a variety of metal, oxide, core/shell structure and polymer nanomaterials, and can assist in optimizing and scaling up existing solutions to manufacture the required materials.
• Size
  With a variety of particle sizes in stock and the ability to manufacture other sizes according to demand, we can achieve the synthesis of a variety of nanomaterials.
• Surface
  Our nanoparticles feature a variety of anionic and cationic capping ligands, also supporting the design and synthesis of nanomaterials with specific functional groups.

Our team of experts is dedicated to providing technical support and guidance throughout the entire nanomaterials manufacturing process, from design to production, ensuring customer satisfaction and success. If you are interested in our services, please contact us for more information.

Our products and services are for research use only and cannot be used for any clinical purposes.