生体磁気ビーズの専門メーカー
生物医学用途のためのPEG-Fe3O4ナノ粒子
1.序文
In the present, thanks to the rapid technological advancements the PEG-Fe3○4 Nanoparticles is receiving a lot of attention in the biomedical area. ポリエチレングリコール変性酸化鉄 (鉄3○4 ) ナノ粒子, with its distinctive shell structure, and its multifunctional characteristics opens up new research fields like the medical imaging field, targeted delivery and separation of biological components.
2. Innovative Characteristics: Miniature Size,Exceptional Performance
The PEG-Fe3○4 nanomaterial is formed by modifying the surface of an Iron(Ⅱ,Ⅲ) oxide (鉄3○4 ) nanocore with polyethylene glycol (ペグ) chains, creating a composite nanomaterial with special functions. This structural design endows the material with the following advantages:
Excellent dispersibility: Maintains stable dispersion in aqueous and physiological environments
Biological adaptability: Surface modification effectively improves the material’s compatibility with biological systems
Functional diversity: Can connect various biological molecules and probes through terminal functional groups
Magnetic response characteristics: Exhibits controllable magnetic response behavior under an external magnetic field
3. Application Prospects: Showing Potential in Multiple Fields
3.1 Biomedical Research
PEG-Fe3○4 nanoparticles can serve as contrast enhancers to improve the contrast effect of medical imaging techniques. Their small size helps them accumulate in specific tissue areas, providing new tools for imaging research.
3.2 Targeted Delivery Research
By connecting specific molecules, PEG-Fe3○4 can act as a research delivery vector. Under the guidance of an external magnetic field, it enables the directional transmission of target molecules, offering new technological pathways for delivery system research.
3.3 Biological Separation Technology
Based on its magnetic response characteristics, PEG-Fe3○4 nanoparticles can be used for biomolecule separation and purification research. Rapid enrichment and separation of targets can be achieved through an external magnetic field, providing convenient methods for laboratory research.
3.4 Industrial Innovation Applications
Beyond the biomedical field, PEG-Fe3○4 also shows application potential in areas such as advanced material preparation, industrial lubrication, and electromagnetic applications, offering new material choices for interdisciplinary research.
4. Technical Advantages: An Ideal Choice for Scientific Research Innovation
Compared with traditional materials, PEG-Fe3○4 nanomaterials have significant advantages:
Strong adaptability: Surface modification effectively enhances material applicability
Customizability: Size and surface functional groups can be customized according to research needs
Multifunctionality: Can integrate multiple research functions simultaneously
Mature preparation: Established perfect preparation process and quality control system
Technological Advantage: Ideal for Research and Innovation
テーブル 1: PEG-Fe3○4 nanoparticles with different particle sizes from Shanghai LnjnBio
| いいえ. | 製品番号 | 粒子サイズ | 固形物 | 仕様 |
| 1 | 240061MF | 10-30 nm | 10 mg/mL | 2 mL、10 mL、50 mL、500 mL、1000 mL |
| 2 | 240062MF | 30-50 nm | ||
| 3 | 240063MF | 50-100 nm | ||
| 4 | 240064MF | 200 nm | ||
| 5 | 240065MF | 300 nm | ||
| 6 | 240066MF | 400 nm | ||
| 7 | 240067MF | 500 nm |
5. Professional Support: Technical Assurance from Shanghai Lingjun Biotechnology
上海霊軍生物技術有限公司, 株式会社. specializes in the research, 発達, and production of nanomaterials, providing comprehensive technical support from basic research to application development. The company has a well-established R&D platform and quality control system, offering various specifications of PEG-Fe3○4 nanomaterials and related customization services.
The company provides:
PEG-Fe3○4 nanomaterials in various sizes and specifications
Surface functionalization customization services
Professional technical consultation and support
A comprehensive quality assurance system
Research institutions and corporate customers are welcome to inquire and collaborate to jointly promote the innovative application of nanomaterials in various fields.
サプライヤー
上海霊軍生物技術有限公司, 株式会社に設立されました 2016 生体磁性材料と核酸抽出試薬の専門メーカーです.
核酸抽出・精製の経験が豊富です。, タンパク質の精製, 細胞分離, 化学発光, その他の技術分野.
当社の製品はさまざまな分野で広く使用されています, 医療検査など, 遺伝子検査, 大学の研究, 遺伝子育種, 等々. 製品のご提供だけでなくOEMも承ります, ODM, その他のニーズ. 関連するニーズがある場合, お気軽にお問い合わせください .
