Creative Biolabs - Products
Creative Biolabs is a top expert in lipid-based drug delivery systems, providing a unique range of lipid and liposome products including plain, cationic, fluorescent liposomes, and liposomal vaccines.
Product | Description | |
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DC-Chol:DOPE (50:50) Liposomes Quick inquiry Where to buy | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. | |
DC-Chol Liposome Quick inquiry Where to buy | DC-Chol is synthesized from N',N'-dimethylethylenediamine and chloroformylated cholesterol. The liposome contains DC-Chol and can be used as a vaccine adjuvant. Its combination with genetically engineered hepatitis B surface antigen increases the levels of specific antibodies IgG1, IgG2a and Th1 and Th2 class cytokines. It is only for research purposes. Group: Liposomal vaccine or adjuvant. | |
DDAB:Chol (50:50) Liposomes Quick inquiry Where to buy | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. | |
DDAB:DOPE (50:50) Liposomes Quick inquiry Where to buy | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. | |
DDAB Liposomes Quick inquiry Where to buy | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. | |
Dexamethasone Palmitate Acid Liposome Quick inquiry Where to buy | Dexamethasone palmitate acid is a non-specific carrier anti-inflammatory drug. This product is a pre-formulated liposome with dexamethasone palmitate acid. It is only for research purposes and for the injection to laboratory animals. Group: Drug-loaded liposome. | |
Dexamethasone Sodium Phosphate Liposome Quick inquiry Where to buy | Dexamethasone sodium phosphate is an adrenocorticotropic hormone analog with anti-inflammatory, anti-allergic, and immunosuppressive properties for the treatment of allergic and autoimmune inflammatory diseases. This product is a pre-formulated liposome with dexamethasone sodium phosphate. It is only for research purposes and for the injection to laboratory animals. Group: Drug-loaded liposome. | |
DiD Labeled Liposomes Quick inquiry Where to buy | These liposomes are labelled with lipophilic fluorescent dye-DiD in place of APC. They enables the study of cellular uptake, in vivo imaging and biodistribution. PEGylated to improve stability, prolong circulation time and reduce reticuloendothelial system clearance. Group: Fluorescent liposome. | |
DiR Labeled Liposomes Quick inquiry Where to buy | These liposomes are labelled with lipophilic fluorescent dye-DiR. These fluorescent liposomes passively accumulate in solid tumor tissues for a variety of murine tumor models and are labelled with the fluorescent dye, DiR, making them excellent for in vivo and ex vivo imaging studies in rodents. PEGylated to improve stability, prolong circulation time and reduce reticuloendothelial system clearance. Group: Fluorescent liposome. | |
DMPC:Chol (70:30) Liposomes Quick inquiry Where to buy | This product is mainly made of saturated Phosphatidylcholine (PC) and Cholesterol. PC is the most abundant phospholipid in eukaryotic cell membranes and it can form lipid bilayers. Cholesterol plays important role in liposome production. It can promote the accumulation of lipid chains and the formation of bilayers, reduce the fluidity of bilayers and the transmembrane transport of water-soluble drugs. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DMPC:Chol:DSPE-mPEG2000 (50:45:5) Liposomes Quick inquiry Where to buy | The product is a kind of neutral PEGylated liposome. Our liposomes contain three kinds of cationic, anionic and neutral subtypes. Neutral liposomes are generally non-toxic and relatively stable in serum. The one of most popular neutral liposomes on the market are Doxil®. PEG has been proven to improve the stability of liposomes and increase the circulation time of liposomes in the blood. Therefore, PEGylated liposomes have enhanced tumor permeability and retention effect (EPR) and improved tumor uptake. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DMPC Liposomes Quick inquiry Where to buy | Liposomes are extensively used to study the interaction of proteins, peptides and other molecules with the surface of a lipid membrane. This product is mainly made of saturated Phosphatidylcholine (PC). PC is the most abundant phospholipid in eukaryotic cell membranes and it can form lipid bilayers. PC also plays a important role in liposome. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
Dodecanylamine-Liposome Quick inquiry Where to buy | Dodecanylamine-Liposome is Liposome with the amine group, which can react with peptides, antibodies and other NHS-containing biomolecules or nanoparticles. The free carboxyl group on the antibody, peptide or protein can be activated by EDC/sulfo-NHS, and then covalently conjugated to the lipids through displacement of sulfo-NHS groups by amine groups of the liposomes. Group: Immunoliposomes. | |
Dodecanyl-Liposome Quick inquiry Where to buy | Dodecanyl-Liposome is Liposome with the carboxyl group, which can be activated by EDC (1-ethyl-3-[3-dimethylaminopropyl] carbodiimide) and react with sulfo-NHS (N-hydroxysulfosuccinimide) to produce a significantly more stable and more soluble active intermediate (NHS ester). The intermediate can covalently conjugate to the amine group on the proteins, peptides or antibodies through displacement of sulfo-NHS group by amine. Group: Immunoliposomes. | |
DOPC:DSPE-mPEG2000 (95:5) Liposomes Quick inquiry Where to buy | This product is a kind of PEGylated liposome. The main component of this liposome is Phosphatidylcholine (PC) which is the most abundant phospholipid in eukaryotic cell membranes and it can form lipid bilayers. PEG has been proven to improve the stability of liposomes and increase the circulation time of liposomes in the blood. Therefore, PEGylated liposomes have enhanced tumor permeability and retention effect (EPR) and improved tumor uptake. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPC Liposomes Quick inquiry Where to buy | Liposomes are extensively used to study the interaction of proteins, peptides and other molecules with the surface of a lipid membrane. This product is mainly made of saturated Phosphatidylcholine (PC). PC is the most abundant phospholipid in eukaryotic cell membranes and it can form lipid bilayers. PC also plays a important role in liposome. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPG:DOPC (0.5:99.5) Liposomes Quick inquiry Where to buy | Phosphatidylserine (PS) and phosphatidylglycerol (PG) are anionic molecules that form liposomes with negative zeta potential. The zeta potential of the liposomes depending on the molar percentage of the negatively charged lipids in the liposome formulation. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPG:DOPC (10:90) Liposomes Quick inquiry Where to buy | Phosphatidylserine (PS) and phosphatidylglycerol (PG) are anionic molecules that form liposomes with negative zeta potential. The zeta potential of the liposomes depending on the molar percentage of the negatively charged lipids in the liposome formulation. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPG:DOPC (1:99) Liposomes Quick inquiry Where to buy | Phosphatidylserine (PS) and phosphatidylglycerol (PG) are anionic molecules that form liposomes with negative zeta potential. The zeta potential of the liposomes depending on the molar percentage of the negatively charged lipids in the liposome formulation. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPG:DOPC (20:80) Liposomes Quick inquiry Where to buy | Phosphatidylserine (PS) and phosphatidylglycerol (PG) are anionic molecules that form liposomes with negative zeta potential. The zeta potential of the liposomes depending on the molar percentage of the negatively charged lipids in the liposome formulation. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPG:DOPC (2:98) Liposomes Quick inquiry Where to buy | Phosphatidylserine (PS) and phosphatidylglycerol (PG) are anionic molecules that form liposomes with negative zeta potential. The zeta potential of the liposomes depending on the molar percentage of the negatively charged lipids in the liposome formulation. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPG:DOPC (30:70) Liposomes Quick inquiry Where to buy | Phosphatidylserine (PS) and phosphatidylglycerol (PG) are anionic molecules that form liposomes with negative zeta potential. The zeta potential of the liposomes depending on the molar percentage of the negatively charged lipids in the liposome formulation. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPG:DOPC (40:50) Liposomes Quick inquiry Where to buy | Phosphatidylserine (PS) and phosphatidylglycerol (PG) are anionic molecules that form liposomes with negative zeta potential. The zeta potential of the liposomes depending on the molar percentage of the negatively charged lipids in the liposome formulation. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPG:DOPC (50:50) Liposomes Quick inquiry Where to buy | Phosphatidylserine (PS) and phosphatidylglycerol (PG) are anionic molecules that form liposomes with negative zeta potential. The zeta potential of the liposomes depending on the molar percentage of the negatively charged lipids in the liposome formulation. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPG:DOPC (5:95) Liposomes Quick inquiry Where to buy | Phosphatidylserine (PS) and phosphatidylglycerol (PG) are anionic molecules that form liposomes with negative zeta potential. The zeta potential of the liposomes depending on the molar percentage of the negatively charged lipids in the liposome formulation. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPG:DOPC (60:40) Liposomes Quick inquiry Where to buy | Phosphatidylserine (PS) and phosphatidylglycerol (PG) are anionic molecules that form liposomes with negative zeta potential. The zeta potential of the liposomes depending on the molar percentage of the negatively charged lipids in the liposome formulation. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPG:DOPC (70:30) Liposomes Quick inquiry Where to buy | Phosphatidylserine (PS) and phosphatidylglycerol (PG) are anionic molecules that form liposomes with negative zeta potential. The zeta potential of the liposomes depending on the molar percentage of the negatively charged lipids in the liposome formulation. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPG:DOPC (80:20) Liposomes Quick inquiry Where to buy | Phosphatidylserine (PS) and phosphatidylglycerol (PG) are anionic molecules that form liposomes with negative zeta potential. The zeta potential of the liposomes depending on the molar percentage of the negatively charged lipids in the liposome formulation. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPG:DOPC (90:10) Liposomes Quick inquiry Where to buy | Phosphatidylserine (PS) and phosphatidylglycerol (PG) are anionic molecules that form liposomes with negative zeta potential. The zeta potential of the liposomes depending on the molar percentage of the negatively charged lipids in the liposome formulation. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPG Liposomes Quick inquiry Where to buy | Phosphatidylserine (PS) and phosphatidylglycerol (PG) are anionic molecules that form liposomes with negative zeta potential. The zeta potential of the liposomes depending on the molar percentage of the negatively charged lipids in the liposome formulation. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPS:DOPC (0.5:99.5) Liposomes Quick inquiry Where to buy | This product is made of saturated Phosphatidylcholine (PC) and Phosphatidylserine (PS). PS is a negatively charged molecule. The amount of the negative zeta potential in the liposomes depends on the molar percentage of the PS in the formulation. PC is a neutral molecule, it has no effect on the charge of liposomes. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPS:DOPC (10:90) Liposomes Quick inquiry Where to buy | This product is made of saturated Phosphatidylcholine (PC) and Phosphatidylserine (PS). PS is a negatively charged molecule. The amount of the negative zeta potential in the liposomes depends on the molar percentage of the PS in the formulation. PC is a neutral molecule, it has no effect on the charge of liposomes. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPS:DOPC (1:99) Liposomes Quick inquiry Where to buy | This product is made of saturated Phosphatidylcholine (PC) and Phosphatidylserine (PS). PS is a negatively charged molecule. The amount of the negative zeta potential in the liposomes depends on the molar percentage of the PS in the formulation. PC is a neutral molecule, it has no effect on the charge of liposomes. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPS:DOPC (20:80) Liposomes Quick inquiry Where to buy | This product is made of saturated Phosphatidylcholine (PC) and Phosphatidylserine (PS). PS is a negatively charged molecule. The amount of the negative zeta potential in the liposomes depends on the molar percentage of the PS in the formulation. PC is a neutral molecule, it has no effect on the charge of liposomes. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPS:DOPC (2:98) Liposomes Quick inquiry Where to buy | This product is made of saturated Phosphatidylcholine (PC) and Phosphatidylserine (PS). PS is a negatively charged molecule. The amount of the negative zeta potential in the liposomes depends on the molar percentage of the PS in the formulation. PC is a neutral molecule, it has no effect on the charge of liposomes. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPS:DOPC (30:70) Liposomes Quick inquiry Where to buy | This product is made of saturated Phosphatidylcholine (PC) and Phosphatidylserine (PS). PS is a negatively charged molecule. The amount of the negative zeta potential in the liposomes depends on the molar percentage of the PS in the formulation. PC is a neutral molecule, it has no effect on the charge of liposomes. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPS:DOPC (40:50) Liposomes Quick inquiry Where to buy | This product is made of saturated Phosphatidylcholine (PC) and Phosphatidylserine (PS). PS is a negatively charged molecule. The amount of the negative zeta potential in the liposomes depends on the molar percentage of the PS in the formulation. PC is a neutral molecule, it has no effect on the charge of liposomes. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPS:DOPC (50:50) Liposomes Quick inquiry Where to buy | This product is made of saturated Phosphatidylcholine (PC) and Phosphatidylserine (PS). PS is a negatively charged molecule. The amount of the negative zeta potential in the liposomes depends on the molar percentage of the PS in the formulation. PC is a neutral molecule, it has no effect on the charge of liposomes. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPS:DOPC (5:95) Liposomes Quick inquiry Where to buy | This product is made of saturated Phosphatidylcholine (PC) and Phosphatidylserine (PS). PS is a negatively charged molecule. The amount of the negative zeta potential in the liposomes depends on the molar percentage of the PS in the formulation. PC is a neutral molecule, it has no effect on the charge of liposomes. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPS:DOPC (60:40) Liposomes Quick inquiry Where to buy | This product is made of saturated Phosphatidylcholine (PC) and Phosphatidylserine (PS). PS is a negatively charged molecule. The amount of the negative zeta potential in the liposomes depends on the molar percentage of the PS in the formulation. PC is a neutral molecule, it has no effect on the charge of liposomes. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPS:DOPC (70:30) Liposomes Quick inquiry Where to buy | This product is made of saturated Phosphatidylcholine (PC) and Phosphatidylserine (PS). PS is a negatively charged molecule. The amount of the negative zeta potential in the liposomes depends on the molar percentage of the PS in the formulation. PC is a neutral molecule, it has no effect on the charge of liposomes. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPS:DOPC (80:20) Liposomes Quick inquiry Where to buy | This product is made of saturated Phosphatidylcholine (PC) and Phosphatidylserine (PS). PS is a negatively charged molecule. The amount of the negative zeta potential in the liposomes depends on the molar percentage of the PS in the formulation. PC is a neutral molecule, it has no effect on the charge of liposomes. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOPS:DOPC (90:10) Liposomes Quick inquiry Where to buy | This product is made of saturated Phosphatidylcholine (PC) and Phosphatidylserine (PS). PS is a negatively charged molecule. The amount of the negative zeta potential in the liposomes depends on the molar percentage of the PS in the formulation. PC is a neutral molecule, it has no effect on the charge of liposomes. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DOTAP:Chol (50:50) Liposomes Quick inquiry Where to buy | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. | |
DOTAP:Chol:DOPE (10:75:5) Liposomes Quick inquiry Where to buy | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. | |
DOTAP:DOPC (0.5:99.5) Liposomes Quick inquiry Where to buy | DOTAP is a positively charged molecule. The zeta potential of the liposomes depending on the molar percentage of matrix lipid (DOPC) and DOTAP in the liposome formulation. Uses: Control liposomes, membrane biology. Group: Plain liposome. Categories: 1,2-dioleoyl-3-trimethylammonium-propane. | |
DOTAP:DOPC (10:90) Liposomes Quick inquiry Where to buy | DOTAP is a positively charged molecule. The zeta potential of the liposomes depending on the molar percentage of matrix lipid (DOPC) and DOTAP in the liposome formulation. Uses: Control liposomes, membrane biology. Group: Plain liposome. Categories: 1,2-dioleoyl-3-trimethylammonium-propane. | |
DOTAP:DOPC (1:99) Liposomes Quick inquiry Where to buy | DOTAP is a positively charged molecule. The zeta potential of the liposomes depending on the molar percentage of matrix lipid (DOPC) and DOTAP in the liposome formulation. Uses: Control liposomes, membrane biology. Group: Plain liposome. Categories: 1,2-dioleoyl-3-trimethylammonium-propane. | |
DOTAP:DOPC (20:80) Liposomes Quick inquiry Where to buy | DOTAP is a positively charged molecule. The zeta potential of the liposomes depending on the molar percentage of matrix lipid (DOPC) and DOTAP in the liposome formulation. Uses: Control liposomes, membrane biology. Group: Plain liposome. Categories: 1,2-dioleoyl-3-trimethylammonium-propane. | |
DOTAP:DOPC (2:98) Liposomes Quick inquiry Where to buy | DOTAP is a positively charged molecule. The zeta potential of the liposomes depending on the molar percentage of matrix lipid (DOPC) and DOTAP in the liposome formulation. Uses: Control liposomes, membrane biology. Group: Plain liposome. Categories: 1,2-dioleoyl-3-trimethylammonium-propane. | |
DOTAP:DOPC (30:70) Liposomes Quick inquiry Where to buy | DOTAP is a positively charged molecule. The zeta potential of the liposomes depending on the molar percentage of matrix lipid (DOPC) and DOTAP in the liposome formulation. Uses: Control liposomes, membrane biology. Group: Plain liposome. Categories: 1,2-dioleoyl-3-trimethylammonium-propane. | |
DOTAP:DOPC (40:50) Liposomes Quick inquiry Where to buy | DOTAP is a positively charged molecule. The zeta potential of the liposomes depending on the molar percentage of matrix lipid (DOPC) and DOTAP in the liposome formulation. Uses: Control liposomes, membrane biology. Group: Plain liposome. Categories: 1,2-dioleoyl-3-trimethylammonium-propane. | |
DOTAP:DOPC (50:50) Liposomes Quick inquiry Where to buy | DOTAP is a positively charged molecule. The zeta potential of the liposomes depending on the molar percentage of matrix lipid (DOPC) and DOTAP in the liposome formulation. Uses: Control liposomes, membrane biology. Group: Plain liposome. Categories: 1,2-dioleoyl-3-trimethylammonium-propane. | |
DOTAP:DOPC (5:95) Liposomes Quick inquiry Where to buy | DOTAP is a positively charged molecule. The zeta potential of the liposomes depending on the molar percentage of matrix lipid (DOPC) and DOTAP in the liposome formulation. Uses: Control liposomes, membrane biology. Group: Plain liposome. Categories: 1,2-dioleoyl-3-trimethylammonium-propane. | |
DOTAP:DOPE (50:50) Liposomes Quick inquiry Where to buy | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. | |
DOTAP Liposomes Quick inquiry Where to buy | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. | |
DOTMA :Chol (50:50) Liposomes Quick inquiry Where to buy | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. | |
DOTMA:DOPE (50:50) Liposomes Quick inquiry Where to buy | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. | |
DOTMA Liposomes Quick inquiry Where to buy | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. | |
Doxorubicin Liposome (PEGylated) Quick inquiry Where to buy | This formulation of doxorubicin liposomes is PEGylated, which is only for research purposes and for the injection to laboratory animals. Doxorubicin drug is encapsulated into the liposomes using remote loading by ammonium sulfate gradient. The formulation is ready for injection. Group: Drug-loaded liposome. | |
DSPC:Chol (55:45) Liposomes Quick inquiry Where to buy | This product is mainly made of saturated Phosphatidylcholine (PC) and Cholesterol. PC is the most abundant phospholipid in eukaryotic cell membranes and it can form lipid bilayers. Cholesterol plays important role in liposome production. It can promote the accumulation of lipid chains and the formation of bilayers, reduce the fluidity of bilayers and the transmembrane transport of water-soluble drugs. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DSPC:Chol:DSPE-mPEG2000 (50:45:5) Liposomes Quick inquiry Where to buy | The product is a kind of neutral PEGylated liposome. Our liposomes contain three kinds of cationic, anionic and neutral subtypes. Neutral liposomes are generally non-toxic and relatively stable in serum. The one of most popular neutral liposomes on the market are Doxil®. PEG has been proven to improve the stability of liposomes and increase the circulation time of liposomes in the blood. Therefore, PEGylated liposomes have enhanced tumor permeability and retention effect (EPR) and improved tumor uptake. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DSPC:DSPE-mPEG2000 (95:5) Liposomes Quick inquiry Where to buy | This product is a kind of PEGylated liposome. The main component of this liposome is Phosphatidylcholine (PC) which is the most abundant phospholipid in eukaryotic cell membranes and it can form lipid bilayers. PEG has been proven to improve the stability of liposomes and increase the circulation time of liposomes in the blood. Therefore, PEGylated liposomes have enhanced tumor permeability and retention effect (EPR) and improved tumor uptake. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
DSPC Liposomes Quick inquiry Where to buy | Liposomes are extensively used to study the interaction of proteins, peptides and other molecules with the surface of a lipid membrane. This product is mainly made of saturated Phosphatidylcholine (PC). PC is the most abundant phospholipid in eukaryotic cell membranes and it can form lipid bilayers. PC also plays a important role in liposome. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
Duoxitasai Liposome Quick inquiry Where to buy | Duoxitasai is a paclitaxel derivative with 2 times the affinity and 10 times the activity of paclitaxel, with broad-spectrum antitumor effects. This product is a PEGylated pre-formulated liposome with duoxitasai. It is only for research purposes. Group: Drug-loaded liposome. | |
Elemene Liposome Quick inquiry Where to buy | Elemene is a mixture of sesquiterpene alkenes, dominated by β-elemene, with broad-spectrum antitumor effects. This product is a pre-formulated liposome with elemene. It is only for research purposes. Group: Drug-loaded liposome. | |
Flumazenil Liposome Quick inquiry Where to buy | Flumazenil is a 1,4-imidazole benzodiazepine derivative and a benzodiazepine (BZD) receptor antagonist. This product is a pre-formulated liposome with flumazeni. It is only for research purposes and for the injection to laboratory animals. Group: Drug-loaded liposome. | |
Fluorescent Liposome DiA Quick inquiry Where to buy | Fluorescent Liposome DiA incorporates a lipophilic dye inside its membrane, which is insoluble in water. Its fluorescence is easily detected when incorporated into membranes. The emission spectrum of DiA is very broad, allowing it to be detected as green, orange or even red fluorescence depending on the optical filter used. It has extremely high extinction coefficients, moderate fluorescence quantum yields and short excited state lifetimes in lipid environments (~1 ns). Group: Fluorescent liposome. | |
Fluorescent Liposome DiD Quick inquiry Where to buy | Fluorescent Liposome DiD incorporates a lipophilic dye inside its membrane, which is insoluble in water. Its fluorescence is easily detected when incorporated into membranes. DiD covers a wide range of excitation and emission wavelengths from 300s to 900s. DiD belongs to the dialkylcarbocyanines family of compounds. The spectral properties of the dialkylcarbocyanines are largely independent of the lengths of the alkyl chains, which are determined by the heteroatoms in the terminal ring systems and the length of the connecting bridge. They have extremely high extinction coefficients, moderate fluorescence quantum yields and short excited state lifetimes in lipid environments (~1 ns). Group: Fluorescent liposome. | |
Fluorescent Liposome DiI Quick inquiry Where to buy | Fluorescent Liposome DiI incorporates a lipophilic dye inside its membrane, which is insoluble in water. Its fluorescence is easily detected when incorporated into membranes. DiI covers a wide range of excitation and emission wavelengths from 300s to 900s. DiI has fluorescence excitation and emission maxima separated by about 65 nm, facilitating two-color labeling. DiI belongs to the dialkylcarbocyanines family of compounds. They have extremely high extinction coefficients, moderate fluorescence quantum yields and short excited state lifetimes in lipid environments (~1 ns). Group: Fluorescent liposome. |