Product custom-nanocomposites-fluorescent-labeled-nanocomposites

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Catalog	name	Description	price
R-Mcs-118	DOPG (100%)Liposomes Co-encapsulating NBD/Rhodamine	DOPG (100%) Liposomes Co encapsulating NBD/Rhodamine can be used for drug and gene delivery, cell imaging, biosensing, and therapeutic nanocarriers. The negative charge may enhance binding to positively charged proteins or allow for targeting certain cell types, especially those with positive surface charges. The co-encapsulation of NBD and Rhodamine allows for dual fluorescent labeling, facilitating studies of membrane dynamics, trafficking pathways, and cellular uptake. By incorporating specific targeting moieties, these liposomes can function as biosensors, visualizing interactions through fluorescence changes upon encountering specific cellular markers. DOPG liposomes can be utilized to encapsulate therapeutics, allowing for controlled release and targeted therapy. The fluorescent markers can aid in tracking the delivery and release of such therapeutics.	price>
R-Mcs-119	DOPC:DOPS Liposomes Co-encapsulating NBD/Rhodamine	DOPC:DOPS Liposomes Co-encapsulating NBD/Rhodamine can be used for drug and gene delivery, cell imaging, biosensing, and therapeutic nanocarriers.	price>
R-Mcs-120	DOPS (100%)Liposomes Co-encapsulating NBD/Rhodamine	DOPS (100%) Liposomes Co encapsulating NBD/Rhodamine can be used for studying cellular uptake dynamics, imaging lipid dynamics in living cells.Drug delivery strategies wherein the NBD or Rhodamine dyes can act as tracking agents.	price>
R-Mcs-121	DOPC (100%) Liposomes Co-encapsulating NBD/Rhodamine	DOPC (100%) Liposomes Co-encapsulating NBD/Rhodamine can be used for drug and gene delivery, cell imaging, biosensing, and therapeutic nanocarriers.	price>
R-Mcs-122	POPE:POPS:POPC(5:5:2 molar ratio) Liposomes Co-encapsulating NBD/Rhodamine	POPE:POPS:POPC(5:5:2 molar ratio) Liposomes Co-encapsulating NBD/Rhodamine can be used for drug and gene delivery, cell imaging, biosensing, and therapeutic nanocarriers.	price>
R-Mcs-123	DOTAP:DOPC:Chol(5:65:30 molar ratio)-based Fluoroliposome DiA	DOTAP: DOPC: Chol (5:65:30 molar ratio) - based Fluoroliposome DiA can track the uptake and distribution of liposomes in cell cultures or animal models.Delivery of therapeutic agents, including nucleic acids. Potential use in mRNA and other types of vaccines, leveraging their ability to deliver genetic material into cells.	price>
R-Mcs-124	DOTAP:DOPC:Chol(5:65:30 molar ratio)-based Fluoroliposome DiD	DOTAP:DOPC:Chol(5:65:30 molar ratio)-based Fluoroliposome DiD can track the uptake and distribution of liposomes in cell cultures or animal models.Delivery of therapeutic agents, including nucleic acids.Potential use in mRNA and other types of vaccines, leveraging their ability to deliver genetic material into cells.	price>
R-Mcs-125	DOTAP:DOPC:Chol(5:65:30 molar ratio)-based Fluoroliposome DiI	DOTAP:DOPC:Chol(5:65:30 molar ratio)-based Fluoroliposome DiI can track the uptake and distribution of liposomes in cell cultures or animal models.Delivery of therapeutic agents, including nucleic acids.Potential use in mRNA and other types of vaccines, leveraging their ability to deliver genetic material into cells.	price>
R-Mcs-126	DOTAP:DOPC:Chol(5:65:30 molar ratio)-based Fluoroliposome DiO	DOTAP:DOPC:Chol(5:65:30 molar ratio)-based Fluoroliposome DiO can track the uptake and distribution of liposomes in cell cultures or animal models.Delivery of therapeutic agents, including nucleic acids.Potential use in mRNA and other types of vaccines, leveraging their ability to deliver genetic material into cells.	price>
R-Mcs-127	DOTAP:DOPC:Chol(5:65:30 molar ratio)-based Fluoroliposome DiR	DOTAP:DOPC:Chol(5:65:30 molar ratio)-based Fluoroliposome DiR can track the uptake and distribution of liposomes in cell cultures or animal models.Delivery of therapeutic agents, including nucleic acids.Potential use in mRNA and other types of vaccines, leveraging their ability to deliver genetic material into cells.	price>

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