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| Product | Description | |
|---|---|---|
| 0,01% Oxygen Steel | 0,01% Oxygen Steel. Uses: For analytical and research use. Group: Metal alloys. Catalog: APS003821. Shipping: Room Temperature. |  |
| 0.10M CSO in Anhydrous Acetonitrile | 0.10M CSO in Anhydrous Acetonitrile is a popular reagent used in various biomedical laboratories. Notably, it plays a crucial role in the research of synthesis of drugs, especially targeting cardiovascular diseases and cancer. |  |
| 0,15% Sulfur steel (BS 1429)-disc | 0,15% Sulfur steel (BS 1429)-disc. Uses: For analytical and research use. Group: Metal alloys. Catalog: APS003825. | |
| 01-A-Metals-37mm spiked cassette capsules | 01-A-Metals-37mm spiked cassette capsules. Uses: For analytical and research use. Group: Environmental proficiency testing. Catalog: APS003845. Format: 4 x 37 mm diameter cellulose acetate "cassette capsule" spiked with metal solutions plus 2 x blank capsules. | |
| 01-B-Metals-37mm spiked cellulose ester filters | 01-B-Metals-37mm spiked cellulose ester filters. Uses: For analytical and research use. Group: Environmental proficiency testing. Catalog: APS003846. Format: 4 x 37 mm diameter mixed cellulose ester filters spiked with metal solutions plus 2 x blank capsules. | |
| 04:1 Coenzyme A Sodium salt | 04:1 Coenzyme A Sodium salt is a fundamental biochemical compound prevalent in the biomedical sector, demonstrating its indispensability as a coenzyme involved in diverse metabolic pathways. Its remarkable functionality aids in the seamless transfer of acyl groups. Moreover, owing to its profound impact on lipid metabolism, this product emerges as a potential solution in the treatment of metabolic afflictions, including obesity, diabetes, and cardiovascular anomalies. Synonyms: (E)-but-2-enoyl Coenzyme A (sodium salt); sodium (2R, 3S, 4R, 5R) -5- (6-amino-9H-purin-9-yl) -2- ( ( ( ( ( ( (R) -4- ( (3- ( (2- ( ( (E) -but-2-enoyl) thio) ethyl) amino) -3-oxopropyl) amino) -3-hydroxy-2, 2-dimethyl-4-oxobutoxy) oxidophosphoryl) oxy) oxidophosphoryl) oxy) methyl) -4-hydroxytetrahydrofuran-3-yl hydrogen phosphate; 9H-Purin-6-amine, 9- [ (2ξ ) -5-O- [hydroxy [ [hydroxy [ (3R) -3-hydroxy-2, 2-dimethyl-4-oxo-4- [ [3-oxo-3- [ [2- [ [ (2E) -1-oxo-2-buten-1-yl] thio] ethyl] amino] propyl] amino] butoxy] phosphinyl] oxy] phosphinyl] -3-O-phosphono-β -D-threo-pentofuranosyl] -, sodium salt (1:3). Grades: >99%. CAS No. 2260670-60-6. Molecular formula: C25H37N7Na3O17P3S. Mole weight: 901.55. | |
| 056-(Ferrocenyl)hexanethiol | 056-(Ferrocenyl)hexanethiol. Group: Self-assembly materials. Alternative Names: 056-(FERROCENYL)HEXANETHIOL; 6-(Ferrocenyl)hexanethiol; 6-(Mercaptohexyl)ferrocene; 6-(Ferrocenyl)hexanethiol, 6-(Mercaptohexyl)ferrocene; FERROCENYL)HEXANETHIOL; FHT. CAS No. 134029-92-8. Product ID: 056-(FERROCENYL)HEXANETHIOL. Molecular formula: 302.261. Mole weight: C11H17S. C5H5. Fe. 96%. |  |
| 0.5% DiI Encapsulated DOTAP Liposomes | 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. Categories: Niosomes, ethosomes, and transfersomes. |  |
| 0.5% DiI Encapsulated DOTMA Liposomes | 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. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% DiO Encapsulated DOTAP Liposomes | 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. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% DiO Encapsulated DOTMA Liposomes | 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. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% NBD-DOPE Encapsulated DC-Chol:DOPE (1:2) Liposomes | 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. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% NBD-DOPE Encapsulated DC-Chol:DOPE (50:50) Liposomes | 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. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% NBD-DOPE Encapsulated DDAB:Chol (50:50) Liposomes | 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. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% NBD-DOPE Encapsulated DDAB:DOPE (50:50) Liposomes | 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. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% NBD-DOPE Encapsulated DDAB Liposomes | 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. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% NBD-DOPE Encapsulated DOTAP:Chol (50:50) Liposomes | 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. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% NBD-DOPE Encapsulated DOTAP:Chol:DOPE (10:75:5) Liposomes | 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. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% NBD-DOPE Encapsulated DOTAP:DOPE (50:50) Liposomes | 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. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% NBD-DOPE Encapsulated DOTMA:Chol (50:50) Liposomes | 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. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% NBD-DOPE Encapsulated DOTMA:DOPE (50:50) Liposomes | 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. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% NBD-DOPE Encapsulated GL-67:DOPE (1:2) Liposomes | 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. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% Rhod-PE Encapsulated DC-Chol:DOPE (1:2) Liposomes | 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. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% Rhod-PE Encapsulated DC-Chol:DOPE (50:50) Liposomes | 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. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% Rhod-PE Encapsulated DDAB:Chol (50:50) Liposomes | 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. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% Rhod-PE Encapsulated DDAB:DOPE (50:50) Liposomes | 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. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% Rhod-PE Encapsulated DDAB Liposomes | 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. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% Rhod-PE Encapsulated DOTAP:Chol (50:50) Liposomes | 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. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% Rhod-PE Encapsulated DOTAP:Chol:DOPE (10:75:5) Liposomes | 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. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% Rhod-PE Encapsulated DOTAP:DOPE (50:50) Liposomes | 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. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% Rhod-PE Encapsulated DOTMA:Chol (50:50) Liposomes | 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. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% Rhod-PE Encapsulated DOTMA:DOPE (50:50) Liposomes | 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. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% Rhod-PE Encapsulated GL-67:DOPE (1:2) Liposomes | 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. Categories: Niosomes, ethosomes, and transfersomes. | |
| 06-0334 Graphene Quantum Dots (GQDs), Blue Luminescent | Methane is a colorless odorless gas. It is also known as marsh gas or methyl hydride. It is easily ignited. The vapors are lighter than air. Under prolonged exposure to fire or intense heat the containers may rupture violently and rocket. It is used in making other chemicals and as a constituent of the fuel, natural gas.;Methane is a colorless odorless gas. It is also known as marsh gas or methyl hydride. It is easily ignited. The vapors are lighter than air. Under prolonged exposure to fire or intense heat the containers may rupture violently and rocket. It is used in making other chemicals and as a constituent of the fuel, natural gas.;Methane, refrigerated liquid (cryogenic liquid) is a colorless odorless liquid. Flammable. Water insoluble.;Natural gas, refrigerated liquid (cryogenic liquid) appears as a flammable liquefied gaseous mixture of straight chain hydrocarbons, predominately methane.;Natural gas, [compressed] appears as a flammable gaseous mixture of straight chain hydrocarbons, predominately compressed methane.;GasVapor; Liquid;Liquid;COLOURLESS ODOURLESS COMPRESSED OR LIQUEFIED GAS. Group: Graphenes. CAS No. 1034343-98-0. Product ID: methane. Molecular formula: 16.043g/mol. Mole weight: CH4;CH4;CH4. C. InChI=1S/CH4/h1H4. VNWKTOKETHGBQD-UHFFFAOYSA-N. | |
| 0.7kb DNA Marker | 0.7kb DNA Marker. 0.7kb dna marker is a premixed, ready-to-load molecular weight marker containing seven linear double-stranded dna fragments. the dna ladder is suitable for use as molecular weight standards for agarose gel electrophoresis, it is not recommended to be used for page. Group: Markers & Ladders. Storage: Store at -20 ?. Cat No: MK-2004. |  |
| 08:0 PI | 08:0 PI. Group: Others. Synonyms: PI(8:0/8:0). Purity: >99%. Mole weight: 603.637. Stability: 1 Years. Storage: -20°C. PI(8:0/8:0); 1,2-Dioctanoyl-sn-glycero-3-phospho-(1'-myo-inositol) (ammonium salt); 08:0 PI. Cat No: PHOZ-068. | |
| 08:0 PI Ammonium salt | Inositol phospholipid species are membrane-bound signaling molecules that have been implicated in almost all aspects of cellular physiology, including cellular growth, metabolism, proliferation, and survival. Synonyms: 1,2-dioctanoyl-sn-glycero-3-phospho-(1'-myo-inositol) (ammonium salt); (R)-2, 3-bis(octanoyloxy)propyl((1S, 2R, 3R, 4S, 5S, 6R)-2, 3, 4, 5, 6-pentahydroxycyclohexyl) phosphate ammonium salt; PI(8:0/8:0). Grades: >99%. CAS No. 2260795-76-2. Molecular formula: C25H50NO13P. Mole weight: 603.64. | |
| 10058-F4 | 10058-F4 is a c-Myc inhibitor that specificallly inhibits the c-Myc-Max interaction and prevents transactivation of c-Myc target gene expression. Synonyms: 10058-F4; 10058F4; 10058 F4. Grades: >98%. CAS No. 403811-55-2. Molecular formula: C12H11NOS2. Mole weight: 249.35. | |
| 10058-F4 | 10058-F4 is a c-Myc inhibitor that prevents c-Myc-Max dimerization and transactivation of c-Myc target gene expression. Uses: Scientific research. Group: Signaling pathways. CAS No. 403811-55-2. Pack Sizes: 5 mg; 10 mg; 50 mg. Product ID: HY-12702. |  |
| 10058-F4 | Cell permeable c-Myc-Max dimerization inhibitor. Inhibits proliferation, induces apoptosis and arrests cells in G0/G1 in rat1a-c-Myc cells. Also reduces tumor growth in vivo. Group: Biochemicals. Grades: Highly Purified. CAS No. 403811-55-2. Pack Sizes: 10mg, 50mg. Molecular Formula: C12H11NOS2. US Biological Life Sciences. |  Worldwide |
| 10074-g5 | 10074-G5 is an inhibitor of c-Myc-Max dimerization with an IC50 of 146 μM. Uses: Designed for use in research and industrial production. Product Category: Inhibitors. Appearance: Solid. CAS No. 413611-93-5. Molecular formula: C18H12N4O3. Mole weight: 332.31. Purity: >98%. Canonical SMILES: O=[N+]([O-])C1=CC=C(NC2=CC=CC=C2C3=CC=CC=C3)C4=NON=C41. Product ID: ACM413611935. Alfa Chemistry ISO 9001:2015 Certified. |  |
| 10074-G5 | 10074-G5, similarly to 10058-F4, is an inhibitor of c-Myc-Maxdimerization (IC50 = 146 μM) that suppresses its transcriptional activity. 10074-G5 binds to and distorts the bHLH-ZIP domain of c-Myc (Kd = 2.8 μM), thus preventing C-Myc specific DNA binding and target genes regulation. Synonyms: 10074 G5; Biphenyl-2-yl-(7-nitrobenzo[1,2,5]oxadiazol-4-yl)amine; 10074G5. CAS No. 413611-93-5. Molecular formula: C18H12N4O3. Mole weight: 332.31. | |
| 100 bp+1.2 Kb+1.5Kb DNA Ladder | 100 bp+1.2 Kb+1.5Kb DNA Ladder. 100 bp+1.2 kb+1.5kb dna ladder is a premixed, ready-to-load molecular weight marker containing eight linear double-stranded dna fragments. the dna ladder is suitable for use as molecular weight standards for agarose gel electrophoresis. the dna ladder contains 100bp -1.5 kb dna fragments. the 500bp band (100 ng/5 μl) has doubled intensity than other bands to serve as reference 100bp-1500bp. . Group: Markers & Ladders. Storage: Store at -20 ?. Cat No: MK-2006. | |
| 100 bp+1.5Kb+2Kb+3Kb DNA Ladder | 100 bp+1.5Kb+2Kb+3Kb DNA Ladder. 100 bp+1.5kb+2kb+3kb dna ladder is a premixed, ready-to-load molecular weight marker containing eight linear double-stranded dna fragments. the dna ladder is suitable for use as molecular weight standards for agarose gel electrophoresis. Group: Markers & Ladders. Storage: Store at -20 ?. Cat No: MK-2005. | |
| 100 bp+1.5 Kb DNA Ladder | 100 bp+1.5 Kb DNA Ladder. 100 bp+1.5 kb dna ladder is a premixed, ready-to-load molecular weight marker containing eight linear double-stranded dna fragments. the dna ladder is suitable for use as molecular weight standards for agarose gel electrophoresis. the dna ladder contains 100bp -1.5 kb dna fragments. the 500bp band (100 ng/5 μl) has doubled intensity than other bands to serve as reference band. Group: Markers & Ladders. Storage: Store at -20 ?. Cat No: MK-2007. | |
| 100 bp+50 bp DNA Ladder | 100 bp+50 bp DNA Ladder. The 100 bp + 50 bp dna ladder has a number of proprietary plasmids which are digested to completion with appropriate restriction enzymes to yield 11 bands suitable for use as molecular weight standards for agarose gel electrophoresis. Group: Markers & Ladders. Form: 10 mM Tris-HCl (pH 8.0), 1.0 mM EDTA, 50mM NaCl. Cat No: MK-2008. | |
| 100g of Bayer Process Red Mud | 100g of Bayer Process Red Mud. Uses: For analytical and research use. Group: Process materials, geological, cement & soils. Pack Sizes: 100G. Catalog: APS014110. | |
| 10,10'-dibromo-9,9'-bianthracene | 10,10'-dibromo-9,9'-bianthracene. Group: Small molecule semiconductor building blockssynthetic tools and reagents polymerssemiconductor blocks. Alternative Names: 10,10'-dibromo-9,9'-bianthryl,10-bromo-9-(10-bromoanthracen-9-yl)anthracene. CAS No. 121848-75-7. Pack Sizes: 1, 5 g in glass bottle. Product ID: 9-bromo-10-(10-bromoanthracen-9-yl)anthracene. Molecular formula: 512.2g/mol. Mole weight: C28H16Br2. BrC1=C2C (C=CC=C2)=C (C3=C (C=CC=C4)C4=C (Br)C5=C3C=CC=C5)C6=CC=CC=C61. 1S/C28H16Br2/c29-27-21-13-5-1-9-17 (21)25 (18-10-2-6-14-22 (18)27)26-19-11-3-7-15-23 (19)28 (30)24-16-8-4-12-20 (24)26/h1-16H. NPNNLGXEAGTSRN-UHFFFAOYSA-N. | |
| 10,10'-Dibromo-9,9'-bianthracene | 10,10'-Dibromo-9,9'-bianthracene (CAS# 121848-75-7 ) is a useful research chemical. Synonyms: 10,10'-Dibromo-9,9'-bianthryl. Grades: 98-99 %. CAS No. 121848-75-7. Molecular formula: C28H16Br2. Mole weight: 512.2. | |
| 10,10'-Dibromo-9,9'-bianthracene | 10,10'-Dibromo-9,9'-bianthracene. Uses: Designed for use in research and industrial production. Additional or Alternative Names: 9-Bromo-10-(10-bromoanthracen-9-yl)anthracene. Product Category: Promotional Products. Appearance: solid. CAS No. 121848-75-7. Molecular formula: C28H16Br2. Mole weight: 512.23. Purity: 95+%. Product ID: ACM121848757-3. Alfa Chemistry ISO 9001:2015 Certified. | |
| 10,10-Dibromo-9,9-bianthryl | 10,10-Dibromo-9,9-bianthryl. Group: Organic light-emitting diode (oled) materials. CAS No. 121848-75-7. Product ID: 9-bromo-10-(10-bromoanthracen-9-yl)anthracene. Molecular formula: 512.2g/mol. Mole weight: C28H16Br2. C1=CC=C2C (=C1)C (=C3C=CC=CC3=C2Br)C4=C5C=CC=CC5=C (C6=CC=CC=C64)Br. InChI=1S / C28H16Br2 / c29-27-21-13-5-1-9-17 (21) 25 (18-10-2-6-14-22 (18) 27) 26-19-11-3-7-15-23 (19) 28 (30) 24-16-8-4-12-20 (24) 26 / h1-16H. NPNNLGXEAGTSRN-UHFFFAOYSA-N. | |
| 10,10'-Dibromo-9,9'-bianthryl | 10,10'-Dibromo-9,9'-bianthryl. Uses: Designed for use in research and industrial production. Additional or Alternative Names: 9-Bromo-10-(10-bromoanthracen-9-yl)anthracene. Product Category: Bromine Series. Appearance: solid. CAS No. 121848-75-7. Molecular formula: C28H16Br2. Mole weight: 512.23. Purity: 95+%. Product ID: ACM121848757. Alfa Chemistry ISO 9001:2015 Certified. | |
| 10, 10-Di hydroxypesudo hydromorphone | 10, 10-Di hydroxypesudo hydromorphone. Group: Biochemicals. Grades: Highly Purified. Pack Sizes: 1mg. Molecular Formula: C34H36N2O8, Molecular Weight: 600.66. US Biological Life Sciences. | Worldwide |
| 10,10-Dimethyl-4-aza-tricyclo[7.1.1.0(2,7)]undeca-2,4,6-trien-5-ylamine | 10,10-Dimethyl-4-aza-tricyclo[7.1.1.0(2,7)]undeca-2,4,6-trien-5-ylamine. Uses: Designed for use in research and industrial production. Additional or Alternative Names: 10,10-DIMETHYL-4-AZA-TRICYCLO[7.1.1.0 (2,7)]UNDECA-2,4,6-TRIEN-5-YLAMINE. Product Category: Heterocyclic Organic Compound. CAS No. 180802-86-2. Molecular formula: C12H16N2. Mole weight: 188.26884. Product ID: ACM180802862. Alfa Chemistry ISO 9001:2015 Certified. Categories: AKOS006331708. | |
| 10,10'-Dimethyl-9,9'-biacridinium Dinitrate[for Chemiluminescence Research] | 10,10'-Dimethyl-9,9'-biacridinium Dinitrate[for Chemiluminescence Research]. Group: Molecular Biology. Grades: Highly Purified. CAS No. 2315-97-1. Pack Sizes: 1g, 5g. Molecular Formula: C28H22N4O6. US Biological Life Sciences. | Worldwide |
| 10,10-Dimethylanthrone | Derivative of Anthrone. Group: Biochemicals. Alternative Names: 10,10-Dimethyl-9(10H)-anthracenone; 10,10-Dimethyl-9-anthrone; NSC 17539. Grades: Highly Purified. CAS No. 5447-86-9. Pack Sizes: 100mg, 250mg, 500mg. Molecular Formula: C??H??O, Molecular Weight: 222.28. US Biological Life Sciences. | Worldwide |
| 10,10-Dimethylanthrone-d6 | Labeled derivative of Anthrone. Group: Biochemicals. Alternative Names: 10,10-(Dimethyl-d6)-9(10H)-anthracenone; 10,10-(Dimethyl-d6)-9-anthrone; NSC 17539-d6. Grades: Highly Purified. Pack Sizes: 10mg. US Biological Life Sciences. | Worldwide |
| 10,10'-Oxybis(5-methyl-10,11-dihydro-5H-dibenzo[b,f]azepine) | 10,10'-Oxybis(5-methyl-10,11-dihydro-5H-dibenzo[b,f]azepine) is an impurity of Metapramine, which is a tricyclic antidepressant (TCA) used to treat depression. Synonyms: 5H-Dibenz[b,f]azepine, 10,10'-oxybis[10,11-dihydro-5-methyl-. Molecular formula: C30H28N2O. Mole weight: 432.56. | |
| 10,10'-Oxybis(5-methyl-10,11-dihydro-5H-dibenzo[b,f]azepine) | 10,10'-Oxybis(5-methyl-10,11-dihydro-5H-dibenzo[b,f]azepine) is an impurity in the synthesis of Metapramine (M225830), a norepinephrine reuptake inhibitor without affecting the reuptake of serotonin or dopamine. Group: Biochemicals. Grades: Highly Purified. Pack Sizes: 5mg, 10mg. Molecular Formula: C30H28N2O. US Biological Life Sciences. | Worldwide |
| 10-(1,1':3',1''-Terphenyl-5'-yl)anthracene-9-boronic Acid (contains varying amounts of Anhydride) | 10-(1,1':3',1''-Terphenyl-5'-yl)anthracene-9-boronic Acid (contains varying amounts of Anhydride). Group: Small molecule semiconductor building blockssemiconductor blocks. CAS No. 1415334-59-6. Product ID: [10-(3,5-diphenylphenyl)anthracen-9-yl]boronic acid. Molecular formula: 450.3g/mol. Mole weight: C32H23BO2. B (C1=C2C=CC=CC2=C (C3=CC=CC=C13)C4=CC (=CC (=C4)C5=CC=CC=C5)C6=CC=CC=C6) (O)O. InChI=1S/C32H23BO2/c34-33 (35)32-29-17-9-7-15-27 (29)31 (28-16-8-10-18-30 (28)32)26-20-24 (22-11-3-1-4-12-22)19-25 (21-26)23-13-5-2-6-14-23/h1-21, 34-35H. NQOSAYPSOKFYBW-UHFFFAOYSA-N. | |
| 10,11-Dehydrocurvularin | It is a 12-membered macrocyclic lactone incorporating a resorcinyl moiety, produced by a number of fungal species including curvularia, penicillium and alternaria. It inhibits cell division by disrupting mitotic spindle formation and acts as a developmental regulator by inhibiting self-sporulation in alternaria alternata. Synonyms: (4R,8E)-4,5,6,7-Tetrahydro-11,13-dihydroxy-4-methyl-2H-3-benzoxacyclododecin-2,10(1H)-dione; (+)-(10E,15R)-10,11-Dehydrocurvularin; ent-Dehydrocurvularin; (R)-10,11-Dehydrocurvularin; 4,5-[[(7R)-1-Oxo-2-octene-1,7-diyl]oxy(1-oxoethane-1,2-diyl)]benzene-1,3-diol. Grades: >98% by HPLC. CAS No. 1095588-70-7. Molecular formula: C16H18O5. Mole weight: 290.31. | |
| 10,11-Dehydrocurvularin | 10,11-Dehydrocurvularin is an inhibitor of cell division shown to have antimalarial activity. Group: Biochemicals. Grades: Highly Purified. CAS No. 1095588-70-7. Pack Sizes: 1mg, 2.5mg. Molecular Formula: C16H18O5, Molecular Weight: 290.31. US Biological Life Sciences. | Worldwide |
| 10,11-Dehydrocurvularin | 10,11-Dehydrocurvularin is a prevalent fungal phytotoxin and an antibiotic. 10,11-Dehydrocurvularin is a strong activator of the heat shock response. 10,11-Dehydrocurvularin inhibits TGF-β signalling pathway. Anti-tumorous activity [1] [2]. Uses: Scientific research. Group: Natural products. CAS No. 21178-57-4. Pack Sizes: 1 mg. Product ID: HY-N6679A. | |
| 10,11-Dehydro Misoprostol (Mixture of Diastereomers) | 10,11-Dehydro Misoprostol (Mixture of Diastereomers). Uses: For analytical and research use. Group: Impurity standards. CAS No. 58682-86-3. Pack Sizes: 2.5MG. Molecular Formula: C22H36O4. Mole Weight: 364.52. Catalog: APS58682863. Format: Neat. Shipping: Room Temperature. | |
| 10,11-Dehydro Misoprostol (Mixture of Diastereomers) | 10,11-Dehydro Misoprostol is a Misoprostol impurity. Synonyms: (13E)-(+/-)-16-Hydroxy-16-methyl-9-oxoprosta-10,13-dien-1-oic Acid Methyl Ester. Grades: > 95%. CAS No. 58682-86-3. Molecular formula: C22H36O4. Mole weight: 364.52. | |
| 10,11-Dibromo-10,11-dihydro-5H-dibenz[b,f]azepine-5-carbonyl chloride | 10,11-Dibromo-10,11-dihydro-5H-dibenz[b,f]azepine-5-carbonyl chloride is an interemediate for a synthesis process of oxcarbazepine, an anticonvulsant drug that is used to treat epilepsy. Group: Biochemicals. Grades: Highly Purified. CAS No. 40421-03-2. Pack Sizes: 25mg, 50mg. Molecular Formula: C15H10Br2ClNO, Molecular Weight: 415.51. US Biological Life Sciences. | Worldwide |
| 10,11-Dichloro-10,11-dihydro-5H-dibenz[b,f]azepine-5-carboxamide | 10,11-Dichloro-10,11-dihydro-5H-dibenz[b,f]azepine-5-carboxamide is an intermediate in the synthesis of derivative of Carbamazepine (C175840) which is used in treatment of pain associated with trigeminal neuralgia. Group: Biochemicals. Grades: Highly Purified. CAS No. 59690-98-1. Pack Sizes: 500mg, 5g. Molecular Formula: C15H12Cl2N2O. US Biological Life Sciences. | Worldwide |
| 10,11-Dichloro-10,11-dihydro-5H-dibenz[b,f]azepine-5-carboxamide | 10,11-Dichloro-10,11-dihydro-5H-dibenz[b,f]azepine-5-carboxamide is an intermediate of Carbamazepine, which is a sodium channel blocker used primarily in the treatment of epilepsy and neuropathic pain. Grades: ≥95%. CAS No. 59690-98-1. Molecular formula: C15H12Cl2N2O. Mole weight: 307.17. | |
| 10,11-Didehydrocinchonidine | 10,11-Didehydrocinchonidine is a synthetic reagent. Group: Biochemicals. Grades: Highly Purified. CAS No. 157253-80-0. Pack Sizes: 50mg, 100mg. Molecular Formula: C19H20N2O, Molecular Weight: 292.37. US Biological Life Sciences. | Worldwide |
| 10,11-Dihydro-10,11-Dihydroxy Carbamazepine (Mixture of Isomers) | An impurity of Carbamazepine. Grades: > 95%. CAS No. 1217528-81-8. Molecular formula: C15H14N2O3. Mole weight: 270.29. | |
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