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Catalog	name	Description	price
R-ZF001	ZIF-8,50-200nm ,Zeolites and imidazoles as framework materials	Zeolitic Imidazolate Framework-8 ZIF-8 from ruixi ZIF-8,Zeolites and imidazoles as framework materials,Zeolitic Imidazolate Framework-8，ZIF-8，cas：59061-53-9 from ruixi.Zeolitic Imidazolate Framework-8 has a zeolites imidazole ester skeleton (ZIF) composed of metal ions and imidazole anion. The structure of ZIF is similar to that of silica zeolite. ZIF has high thermal stability.	price>
R-M-040	nZIF-8,nanoscale zeolitic imidazolate framework-8,100nm-200nm	nZIF-8,nanoscale zeolitic imidazolate framework-8 from ruixi.nZIF-8 is a kind of nano zeolite imidazolium salt framework selective material, which can remove a lot of carbon dioxide.The ZIF-8 nanoparticles (nZIF-8) have already been widely employed in cancer therapy as the carrier in chemo-photothermal multifunctional systems.	price>
R-M-093	RhB@ZIF-8,Rhodamine B@Zeolitic Imidazolate Framework-8	RhB@ZIF-8,Rhodamine B@Zeolitic Imidazolate Framework-8 from ruixi.RhB@ZIF-8 It has good biocompatibility and high cell permeability. It also has good sensitivity and selectivity for ATP.RhB@ZIF-8 It has the advantages of rapid response to endogenous molecules and good sensitivity,it can be used as a new fluorescent probe to monitor the fluctuation of ATP in mitochondria.	price>
R-C-866	ZIF-8 coated chondroitinase ABC	ABC enzyme can degrade chondroitin sulfate A,chondroitin sulfate B(dermatan sulfate)and chondroitin sulfate C.The enzyme acts on the β 1-4 glycosides between disaccharide repeats and cuts them off through the mechanism of β elimination.The degradation products are oligosaccharides,mainly unsaturated disaccharides.Chondroitin sulfate can be quantified by the determination of unsaturated disaccharide products.	price>
R-M1-cs8780	ZIF-8@RH6G+metformin	ZIF-8 loaded with RH6G and metformin represents a composite material that combines the unique properties of ZIF-8, the fluorescent capabilities of RH6G, and the therapeutic effects of metformin, potentially opening up possibilities for various biomedical and pharmaceutical applications.	price>
R-M1-8856	CeO2@ZIF-8-DBCO	CeO2@ZIF-8-DBCO is a nanocomposite material that can be used in fields such as catalysis and drug delivery systems.	price>
R-M1-8895	Hyaluronic acid-ZIF-8 drug loading(Chloroquine and 2-Deoxy-D-glucose) 100-200nm	Hyaluronic acid-ZIF-8 drug loading refers to a process in which the drug delivery system composed of hyaluronic acid and zeolitic imidazolate framework-8 (ZIF-8) is utilized to load specific drugs.The process of hyaluronic acid-ZIF-8 drug loading with Chloroquine and 2-Deoxy-D-glucose likely involves encapsulating these drugs within the pores of the ZIF-8 framework in combination with hyaluronic acid. The resulting drug delivery system can potentially target cancer cells through the CD44-HA interactions while delivering the loaded drugs to specific cellular targets, taking advantage of the specific properties of both the drugs and the carrier system.	price>
R-M1-9002	ZIF-8@GO	ZIF-8@GO is a composite of zeolitic imidazolate framework grown on graphene oxide.ZIF-8@GO had large specific surface area, abundant functional groups and active sites on the surface, which could promote the adsorption of ZIF-8@GO for pollutants.	price>
R-M2-9422	MTX@ZIF-8 nanoparticles	Methotrexate (MTX)-loaded ZIF-8/Methotrexate@ZIF-8 nanoparticles/ Methotrexate@zeolitic imidazolate framework-8 nanoparticles/MTX@ZIF-8 nanoparticles is a pH sensitive biomimetic drug delivery system. In vitro studies have shown that effective drug release can be achieved in acidic environments.MTX@ZIF-8 Nanoparticles have good thermal stability and minimal weight loss at temperatures up to 400℃.Research shows, MTX@ZIF-8 nanoparticles showed high (drug loading efficiency)DLE (~70%) and EE(encapsulation efficiency) (~ 82%).MTX@ZIF-8 nanoparticles for effective RA(Rheumatoid arthritis) treatment. The encapsulation of MTX in ZIF-8 was verified by UV-Vis spectroscopy (Fig. A) MTX and MTX@ZIF-8 showed the same characteristic absorption peaks at 258 and 302 nm ,indicating the successful loading of MTX into the ZIF-8 structure. Moreover, MTX@ZIF-8 showed a similar XRD pattern to ZIF-8, suggesting the negligible effect of MTX on the crystal structure of ZIF-8 (Fig. B). TGA measurements revealed that ZIF-8 and MTX@ZIF-8 had good thermal stability, with little weight loss at temperatures up to 400 °C (Fig. C) TEM, the roughly spherical shape of bare ZIF-8 changed only slightly after drug loading (Fig. G, H).	price>
R-M1-8213	ZIF-8@MnO2+ miR181a	ZIF-8@MnO2+ miR181a,ZIF-8@MnO2+ miR181a from kamulin.In molecular biology miR-181 microRNA precursor is a small non-coding RNA molecule. (miRNAs) are transcribed as ~70 nucleotide precursors and subsequently processed by the RNase-III type enzyme Dicer to give a ~22 nucleotide mature product.	price>
R-M2-10086	ZIF-8 modified with N3,300-500nm	ZIF-8 modified with N3,300-500nm/N3 modified ZIF-8 can be used for drug delivery,biosensing, immunotherapy, photocatalysis,CO2 conversion, gas/liquid separation, SERS detection.It can also be used for antibacterial materials. Notes: Dispersion method of solid dry powder: Take an appropriate amount of solid dry powder as needed, add pure water until the freeze-dried powder is completely dissolved, and use water bath ultrasound for 5-30 seconds to promote the dispersion of nanomaterials. If the dispersion is not complete, the water bath ultrasound time can be extended to 2 minutes. If physiological saline or buffer solution is needed for dispersion, please add an equal volume of 2 x physiological saline or buffer solution to make the final concentration of physiological saline or buffer solution 1 x normal concentration.	price>
R-M2-10094	ZIF-8 coated gold nanorods modified with azide	Azide-modified ZIF-8–coated gold nanorods are multifunctional core–shell nanostructures consisting of gold nanorods (AuNRs) encapsulated within a zeolitic imidazolate framework-8 (ZIF-8) shell, with surface azide (–N₃) functional groups introduced for bioorthogonal conjugation. This hybrid nanoplatform integrates the plasmonic photothermal properties of AuNRs with the porous, pH-responsive nature of ZIF-8, while azide groups enable click-chemistry-based surface modification.	price>
R-M2-10095	AuNRs@ZIF-8	AuNRs@ZIF-8 are core–shell nanostructures composed of gold nanorods (AuNRs) encapsulated within a zeolitic imidazolate framework-8 (ZIF-8) shell. This hybrid nanoplatform integrates the plasmonic optical properties of gold nanorods with the porous, pH-responsive characteristics of ZIF-8, making it suitable for biomedical and nanotechnology applications.	price>
R-M2-10263	ZIF-8(zn),200-400nm	ZIF-8 (Zn), 200-400 nm is a metal organic framework material (MOF) formed by self-assembly of zinc ions (Zn ² ⁺) and 2-methylimidazole ligands.It has a regular polyhedral morphology and highly adjustable pore structure, with a particle size range of 200-400 nm. It is widely used in fields such as drug delivery, gas separation, catalysis, and environmental detection.	price>
R-M2-10264	ZIF-8(zn),500-800nm	ZIF-8 (Zn), with a particle size range of 500-800 nm, is a nanoscale metal organic framework material with a typical rhombic dodecahedron structure. Its size distribution is concentrated in the 500-800 nm range, making it more suitable for applications that require high loading, slow release, or easy separation compared to smaller particle size ZIF-8.	price>
R-M1-8650	miRNA-29b@MOF(ZIF-8)	miRNA-29b@MOF (ZIF-8) is a MOF material that can carry miRNA-29b and can be used for in vitro fluorescence imaging of cells.	price>