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Catalog	name	Description	price
R-M1-9151	Cy5-azide modified SiO2,800nm	Cy5-azide modified SiO2 refers to silicon dioxide (SiO2) nanoparticles that have been modified with the organic dye Cy5 and functionalized with an azide group.It could be used in applications such as fluorescent imaging, drug delivery, or bioconjugation, where the azide group can participate in specific chemical reactions to link the modified nanoparticles to other functional molecules or surfaces.	price>
R-M1-9169	Ce6 modified polydopamine encapsulates MIL-101 loaded gemcitabine and cisplatin	Ce6 modified polydopamine encapsulates MIL-101 loaded gemcitabine and cisplatin/Ce6 modified polydopamine encapsulates MIL-101 loaded gemcitabine and cisplatin from ruixi.We can accept customized products. Ce6: This likely refers to Chlorin e6, a photosensitizer used in photodynamic therapy (PDT) for the treatment of cancer. Ce6 absorbs light and transfers energy to molecular oxygen, creating reactive oxygen species that can destroy nearby cancer cells. Polydopamine: This is a biocompatible and adhesive polymer derived from dopamine. It has been used as a coating material for drug delivery systems due to its versatile surface functionalization and biocompatibility. MIL-101: This is a metal-organic framework (MOF), a class of materials with high porosity and surface area. MIL-101 can be used to encapsulate and deliver drugs due to its porous nature and controllable pore sizes. Gemcitabine: It is a chemotherapy medication used to treat various types of cancers, including bladder cancer, breast cancer, ovarian cancer, and non-small cell lung cancer. Cisplatin: This is a chemotherapy medication used to treat various types of cancers, including testicular, ovarian, bladder, and lung cancers.	price>
R-M2cs-9466	FITC and Concanavalin A-PAMAM G5 microspheres@Cannabinoids	The applications of FITC and Concanavalin A-PAMAM G5 microspheres @Cannabinoids: Targeted Drug Delivery: The FITC labeling allows for easy tracking of the delivery system in biological studies, while Con A provides the capability to target cells specifically expressing carbohydrates.Encapsulation of cannabinoids could enhance their delivery to target tissues, potentially for pain management, anti-inflammatory effects, and more. Diagnostics: FITC-modified microspheres could be used in assays or imaging techniques to detect the presence of specific glycoproteins or cells in the sample. Research Tools: The combination of fluorescent tagging and carbohydrate-targeting capability could be utilized in research applications, enabling the study of cannabinoid uptake in various cell types. Therapeutic Applications: This system could facilitate improved therapies for various conditions where cannabinoids are known to have beneficial effects, tailoring the delivery to affected tissue types.	price>
R-M2-9643	Liposomal nanoparticles loaded with simvastatin, surface modified with CY5.5,100nm	Liposomal nanoparticles can be designed to target specific tissues or cells, such as cancer cells or neurons, enhancing the therapeutic effect of simvastatin while minimizing systemic exposure and associated side effects.The CY5.5 modification enables non-invasive imaging studies to monitor the biodistribution and accumulation of these liposomes in real time, which is crucial for understanding therapeutic efficacy and optimizing drug delivery strategies.	price>
R-M2-9668	MnO Nanoparticles,spherical 50-100nm	Manganese oxide nanoparticles (MnO) represent a versatile class of nanomaterials with distinctive properties that enable a wide variety of applications across multiple fields, including catalysis, energy storage, medical applications, and environmental remediation. Various synthesis methods can be tailored to achieve specific properties and enhance their functionality.	price>
R-M2c-9671	Bi2S3-CeO2-phenylanine nanoparticles	The hybrid nanoparticles may find application as contrast agents in imaging techniques like MRI or fluorescence imaging due to potential of phenylalanine interaction with biological systems.Phenylalanine can aid in targeting specific cells or tissues, making the nanoparticles suitable for drug delivery applications.These nanoparticles could be utilized in biosensors or diagnostic tools due to their biocompatible nature and potential for specific molecular recognition. The integration of Bi2S3-CeO2-phenylanine nanoparticles/Phenylalanine modified CeO2-Bi2S3 nanomaterials opens up exciting prospects for biomedical applications, combining the strengths of inorganic materials with biological components. These hybrid nanoparticles have the potential to revolutionize areas such as drug delivery, imaging, and biosensing, offering tailored solutions for various biomedical challenges.	price>
R-M1-8671	Folic acid modified cationic liposome encapsulation plasmid and ICG (100-200nm)	Folic acid modified cationic liposome encapsulation of plasmid and ICG (100-200nm) from ruixibio.Cationic liposomes are lipid-based nanoparticles with a positive charge due to the presence of cationic lipids. These nanoparticles are commonly used for the encapsulation and delivery of genetic material, such as plasmid DNA, to target cells for gene therapy applications.In this case, the cationic liposomes are modified with folic acid, which acts as a targeting ligand. Folic acid receptors are often overexpressed on the surface of certain cancer cells, providing a way to specifically target these cells. By modifying the liposomes with folic acid, they can enhance cellular uptake by cancer cells that express higher levels of folate receptors.The plasmid DNA within the liposomes may contain therapeutic genes or other genetic material that can be delivered to the target cells for specific applications, such as gene therapy. Meanwhile, the indocyanine green (ICG) dye serves as both a fluorescent marker and a near-infrared (NIR) imaging agent that can provide real-time monitoring and imaging of the targeted cells.	price>
R-M1-8673	Liposome encapsulated Ce6	Liposome encapsulated Ce6/Liposome@Ce6/Liposome encapsulated chlorin e6/Chlorin e6 (Ce6)-loaded liposome can be used for in vitro and in vivo experiments, as well as research on drug delivery.Because its Chlororin e6 (Ce6) is a photosensitizer material, it can have therapeutic effects on pathogens. In order to improve the efficacy of photosensitizers, various drug delivery systems have been developed. In these carrier systems, liposomes demonstrate their PDT efficacy and safety in delivering photosensitizers.	price>
R-M1-8682	ICG@liposome-cRGD,100nm	ICG@liposome-cRGD is a multifunctional complex that combines the imaging capabilities of ICG, the drug delivery properties of liposomes, and the targeting ability of cRGD peptides. Its potential applications in biomedical research include targeted imaging, drug delivery, and theranostics (combined therapy and diagnostics).	price>
R-M1-8683	FAM@LNP(100nm)	FAM@liposome nanoparticles combine the fluorescent properties of FAM with the drug delivery capabilities of liposomes. This complex provides a versatile system for fluorescence imaging, cellular tracking, and targeted drug delivery in various biomedical applications.	price>

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