1、Recent Progress in Silane Coupling Agent with Its Emerging Applications
On this basis, the current study discusses the effects of silane treatment their modification with nanocrystals, properties and their applications modifier on the rheological property, stability, wettability and curing performance.
2、含硫硅烷偶联剂在白炭黑/橡胶复合材料中的应用研究进展
含硫硅烷偶联剂在白炭黑/橡胶复合材料中的应用研究进展-Research Progress on Application of Sulfur-containing Silane Coupling Agents in Silica/Rubber Composites
3、Recent advances in chemical surface modification of metal oxide
The goal of this paper is to overview the recent progress in using silane coupling agents for the surface modification of metal oxide NPs.
4、Application and Research Progress of Multi
Research Advancements in Silane Coupling Agents Ongoing scientific and technological progress has driven deeper research into silane coupling agents. Key focuses include:
Research and Application of Silane Coupling Agents on Metal Oxide
To address these issues, silane coupling agents (SCAs) have been employed to modify MONPs, enhancing their stability, mechanical properties, and hydrophobicity.
Spearheading a new era in complex colloid synthesis with TPM and other
Colloid science has recently grown substantially owing to the innovative use of silane coupling agents (SCAs), especially 3-trimethoxysilylpropyl methacrylate (TPM).
Silane coupling agent in biomedical materials
Metals, proteins, and hydrogels are using silane coupling agent to link parts commonly. The mild reaction environment also brings advantages for the spread of the silane coupling agent. In this review, we summarize two main methods of using the silane coupling agent.
Silane coupling agent γ
Functional groups in the silane coupling agent have been grafted onto the surface of the particles, providing chemical connections and precisely controlling interfacial interactions. Consequently, the dispersion of nanoparticles in the matrix is expected to improve.
Recent Progress in Silane Coupling Agent with Its Emerging
“…Silane coupling agents (SCAs) constitute a special group of compounds that have the ability to form stable bonds between both organic and inorganic materials due to the presence of an alkoxysilyl group, which is prone to hydrolysis and linkage to mineral filler and organic function with an affinity to a polymer matrix [1] .
(PDF) Recent Progress in Silane Coupling Agent with Its Emerging
This paper presents the effects of silane coupling agent, which includes interfacial adhesive strength, water treatment, polymer composites and coatings that make it valuable for...
Abstract: Nanosilver (AgNPs) has demonstrated broad application potential in medicine, environmental protection, and other fields due to its excellent antibacterial properties and biocompatibility. challenges such as poor dispersion stability and surface modification limitations hinder its practical use. This review summarizes recent advances in silane coupling agent-treated nanosilver, including the types, structural characteristics, and applications of silane coupling agents in surface modification of AgNPs. Future development trends are also discussed.
Main Text: 1. Introduction Nanosilver exhibits significant potential in antibacterial materials, biosensors, and drug delivery systems due to its unique physicochemical properties. its widespread application is limited by aggregation and surface inertness. Silane coupling agents, as critical organic-inorganic hybrid materials, can effectively modify AgNPs through chemical bonding, improving dispersion and biocompatibility.
2. Types and Structural Features of Silane Coupling Agents Silane coupling agents are primarily divided into two categories: amino-silanes (NH₂-Si(O)H) and mercapto-silanes (SH-Si(O)H). Amino-silanes form stable complexes with metals or organics via amide bonds, while mercapto-silanes coordinate with metals through thiol bonds. Different silane coupling agents exhibit varying chemical structures and reactivities, allowing tailored modifications based on specific needs.
3. Applications of Silane Coupling Agents in Nanosilver Surface Modification Methods for treating AgNPs with silane coupling agents include in-situ polymerization, co-precipitation, and surface deposition. These approaches enable silane coupling agents to react with hydrophilic groups (e.g., hydroxyl, carboxyl) on the AgNP surface, forming stable chemical bonds. For example, amino-silanes significantly enhance AgNP dispersion in aqueous media and amplify their antibacterial efficacy.
4. Advantages and Challenges of Silane Coupling Agent-Treated Nanosilver Key advantages include improved stability, dispersion, and biocompatibility of AgNPs. By adjusting the type and concentration of silane coupling agents, surface properties can be precisely controlled. challenges such as stringent reaction conditions and high processing costs persist. Developing more economical and efficient silane treatment technologies remains a research focus.
5. Conclusion and Prospects Silane coupling agent-treated nanosilver is a potent surface modification strategy. By optimizing silane types and processing parameters, high-efficiency modification can be achieved. In the future, advancements in novel silanes and application techniques will expand the potential of silane-treated AgNPs across diverse fields.
Note: Terms like "nanosilver" (AgNPs) and "silane coupling agents" follow standard scientific nomenclature. Chemical structures (e.g., NH₂-Si(O)H) are retained for clarity.
