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| Product | Description | |
|---|---|---|
| 5-Propargylamino-ddCTP - ATTO-Rho6G | 5-Propargylamino-ddCTP - ATTO-Rho6G is a groundbreaking biosensing recompound renowned for its invaluable application in cutting-edge biomedical investigations. Integrating the extraordinary attributes of 5-Propargylamino-ddCTP is a nucleoside analog of paramount significance, with the visually captivating fluorescence bestowed by the ATTO-Rho6G dye. The convergence of these constituents imparts an unsurpassable prowess for discerning and labeling distinctive DNA sequences intricately associated with malignant neoplasms, HIV infection and hereditary maladies. Synonyms: 5-Propargylamino-2',3'-dideoxycytidine-5'-triphosphate, labeled with ATTO Rho6G, Triethylammonium salt. Grades: ≥ 95% by HPLC. Molecular formula: C43H52N7O15P3 (free acid). Mole weight: 999.27 (free acid). |  |
| Aluminum sulfate hydrate | 99.99% trace metals basis. Uses: For analytical and research use. Group: Biosensing and bioimaging. CAS No. 17927-65-0. Pack Sizes: 5G. Mole Weight: 342.15 (anhydrous basis). EC Number: 233-135-0. Catalog: AP17927650. Assay: 99.99% trace metals basis. |  |
| Ammonium nickel(II) sulfate hexahydrate | 99.999% trace metals basis. Uses: For analytical and research use. Group: Biosensing and bioimaging. CAS No. 7785-20-8. Pack Sizes: 25G. Mole Weight: 394.99. EC Number: 239-793-5. Catalog: AP7785208. Assay: 99.999% trace metals basis. | |
| Azure A chloride | Azure A (chloride) is a phenothiazine dye. Azure A (chlorine) is formed by oxidation of methylene blue and has strong metachromatic. Azure A (chlorine) can be used for the study of stains and redox media for electrochemical biosensing [1] [2]. Uses: Scientific research. Group: Fluorescent dye. CAS No. 531-53-3. Pack Sizes: 1 g; 5 g. Product ID: HY-D0947. |  |
| Barium hydroxide hydrate | 99.995% trace metals basis. Uses: For analytical and research use. Group: Biosensing and bioimaging. CAS No. 40226-30-0. Pack Sizes: 5G, 25G. Mole Weight: 171.34 (anhydrous basis). EC Number: 241-234-5. Catalog: AP40226300. Assay: 99.995% trace metals basis. | |
| Calcium chloride hydrate | 99.999% trace metals basis. Uses: For analytical and research use. Group: Biosensing and bioimaging. CAS No. 22691-02-7. Pack Sizes: 10G. Mole Weight: 110.98 (anhydrous basis). EC Number: 233-140-8. Catalog: AP22691027. Assay: 99.999% trace metals basis. | |
| Calcium hydroxide | Biosensing and Bioimaging. Uses: For analytical and research use. Group: Reagents. CAS No. 1305-62-0. Pack Sizes: 5G, 25G. | |
| Chromium(III) chloride tetrahydrofuran complex (1:3) | 97%. Uses: For analytical and research use. Group: Biosensing and bioimaging. CAS No. 10170-68-0. Pack Sizes: 10G. Mole Weight: 374.67. Catalog: AP10170680. Assay: 97%. | |
| Lanthanum(III) chloride heptahydrate | 99.999% trace metals basis. Uses: For analytical and research use. Group: Biosensing and bioimaging. CAS No. 10025-84-0. Pack Sizes: 25G, 100G. Mole Weight: 371.37. Catalog: AP10025840. Assay: 99.999% trace metals basis. | |
| Lithium sulfate | ≥99.99% trace metals basis. Uses: For analytical and research use. Group: Biosensing and bioimaging. CAS No. 10377-48-7. Pack Sizes: 10G. Mole Weight: 109.94. EC Number: 233-820-4. Catalog: AP10377487-B. Assay: ≥99.99% trace metals basis. | |
| Magnesium fluoride | random crystals, optical grade, ≥99.99% trace metals basis. Uses: For analytical and research use. Group: Biosensing and bioimaging. Grades: optical grade. CAS No. 7783-40-6. Pack Sizes: 5G, 25G. Mole Weight: 62.30. EC Number: 231-995-1. Catalog: AP7783406. Assay: ≥99.99% trace metals basis. | |
| Monolayer graphene film | Graphene filmGrowth Method: CVD synthesisTransfer Method: Clean transfer methodQuality Control: Optical Microscopy & Raman checkedSize: 1 cm x 1 cmAppearance (Color): TransparentTransparency: >97%Appearance (Form): FilmCoverage: >95%Number of graphene layers: 1Thickness (theoretical): 0.345 nmFET Electron Mobility on Al2O3: 2; 000 cm2 /V·sFET Electron Mobility on SiO2/Si (expected): 4; 000 cm2 /V·sSheet Resistance: 600 Ohms/sq.Grain size: Up to 10 μmSubstrateSize: 1.25 cm x 1.25 cmType/Dopant: P/BOrientation: 100Growth Method: CZResistivity: 1-30 ohmcmThickness: 525 +/- 25μmFront Surface: polishedBack Surface: etchedCoating: 300 nm thermal oxide on both wafer sides. Uses: Graphene may be extensively incorporated in several applications, such as; nanoelectronics, fuel cells, solar cell, photovoltaic devices, in biosensing, optical biosensors, mems, nems, field effect transistors (fets), chemical sensors, nanocarriers in biosensing assays. Group: Carbon nano materials. |  |
| Potassium carbonate | Biosensing and Bioimaging. Uses: For analytical and research use. Group: Reagents. Grades: anhydrous. CAS No. 584-08-7. Pack Sizes: 5G, 25G. | |
| Rubidium bromide | 99.6% trace metals basis. Uses: For analytical and research use. Group: Biosensing and bioimaging. CAS No. 7789-39-1. Pack Sizes: 10G. Mole Weight: 165.37. EC Number: 232-162-5. Catalog: AP7789391. Assay: 99.6% trace metals basis. | |
| Zinc sulfate heptahydrate | 99.995% trace metals basis. Uses: For analytical and research use. Group: Biosensing and bioimaging. CAS No. 7446-20-0. Pack Sizes: 10G, 50G. Mole Weight: 287.56. EC Number: 231-793-3. Catalog: AP7446200-B. Assay: 99.995% trace metals basis. | |
| 1,2,3-Trichloropropane | 1,2,3-Trichloropropane has been used as a paint or varnish remover, a cleaning and degreasing agent, and an impurity in certain pesticides (1). Also used in the synthesis of sulfur-rich polymers (2) for their use in optical and electrochemical applications such as biosensors (3). Drinking water contaminant candidate list 3 (CCL 3) compound as per United States Environmental Protection Agency (EPA). Environmental contaminants; Food contaminants. Group: Biochemicals. Grades: Highly Purified. CAS No. 96-18-4. Pack Sizes: 5g, 25g. Molecular Formula: C3H5Cl3, Molecular Weight: 147.43. US Biological Life Sciences. |  Worldwide |
| 1,3-Dichloro-9,9-dimethyl-7-(phosphonooxy)-2(9H)-acridinone | 1,3-Dichloro-9,9-dimethyl-7-(phosphonooxy)-2(9H)-acridinone has been used as a component of an optical fiber nanobiosensor to detect telomerase as general cancer biomarker at single cell level followed by in vitro sandwich ELISA. This compound is also used in nanoparticle-based optical biosensors for the direct detection of organophosphate chemical warfare agents and pesticides. Group: Biochemicals. Grades: Highly Purified. CAS No. 301521-89-1. Pack Sizes: 2.5mg, 10mg. Molecular Formula: C15H12Cl2NO5P, Molecular Weight: 388.14. US Biological Life Sciences. | Worldwide |
| 1-Aminopyrene | 1-Aminopyrene is used in the synthesis of novel fluorescent nanoscale ionic silicate platelets for use in bacterial detection and other biosensor applications. Group: Biochemicals. Grades: Highly Purified. CAS No. 1606-67-3. Pack Sizes: 500mg, 1g. Molecular Formula: C16H11N. US Biological Life Sciences. | Worldwide |
| 1-Aminopyrene-13C6 | 1-Aminopyrene-13C6 is a mixture of two isomers and labelled version of 1-Aminopyrene (A629285) which is used in the synthesis of novel fluorescent nanoscale ionic silicate platelets for use in bacterial detection and other biosensor applications. Group: Biochemicals. Grades: Highly Purified. Pack Sizes: 500ug, 1mg. Molecular Formula: C2013C12H22N2, Molecular Weight: 446.44. US Biological Life Sciences. | Worldwide |
| 1H-Pyrrole | 1H-Pyrrole is a five membered heteroaromatic ring that is used as a synthetic intermediate to create products for the pharmaceutical, chemical, food and cosmetic industries. 1H-Pyrrole has the ability to undergo electrochemical polymerization, producing a durable, conductive film that can be used to coat biosensors. Group: Biochemicals. Grades: Highly Purified. CAS No. 109-97-7. Pack Sizes: 10g, 25g. Molecular Formula: C4H5N. US Biological Life Sciences. | Worldwide |
| 2,3,4,6-Tetra-O-acetyl-a-D-galactopyranosyl-Fmoc serine | 2,3,4,6-Tetra-O-acetyl-a-D-galactopyranosyl-Fmoc serine, an essential serine derivative, plays a crucial role in synthesizing glycopeptides and glycoproteins that aid in treating malignant and inflammatory maladies. Apart from protein engineering research, it is extensively employed in the fabrication of biosensors in the healthcare sector. Its significance to biomedicine's cutting-edge breakthroughs cannot be overstated. Molecular formula: C32H35NO14. Mole weight: 657.62. | |
| 2-C-Methyl-D-ribose | 2-C-Methyl-D-ribose, a vital monosaccharide, functions as a precursor to nucleosides and nucleotides. These pivotal molecules formulate the fundamental building blocks of DNA and RNA. Alongside serve as an essential component in the production of microarray and biosensor probes intended for studying the functionality of DNA and RNA. However, its potential use further extends to therapeutic applications that may combat cancer, viral infections, and genetic ailments. Molecular formula: C6H12O5. Mole weight: 164.16. | |
| 2-Nitrophenyl b-D-cellobioside | 2-Nitrophenyl b-D-cellobioside, a chemical compound utilized in the realm of enzymology and biochemistry, finds its purpose in the detection of different types of enzymes, especially glycoside hydrolases. Its functionalities are not limited to this, however, as it can also be employed to analyze carbohydrate-binding proteins. Widely renowned for its ability to influence the development of biosensors for detecting environmental contaminants, this product stands to revolutionize the approach to the pesticide problem that currently plagues our society. Synonyms: 2-Nitrophenyl β-D-cellobioside; ONP-cellobioside; o-Nitrophenyl β-D-Cellobioside; 2-Nitrophenyl 4-O-β-D-Glucopyranosyl-β-D-glucopyranoside. Grades: ≥95%. CAS No. 70867-33-3. Molecular formula: C18H25NO13. Mole weight: 463.39. | |
| 3,4,7,8-Tetramethyl-1,10-phenanthroline | 3,4,7,8-Tetramethyl-1,10-phenanthroline (TMPhen) is an organic molecule commonly used as a ligand or catalyst. It has a wide range of applications in different fields, such as organometallic chemical reactions, electrochemical detection, and organic optoelectronic devices. Due to its excellent performance in fluorescent probes, biosensors and photocatalytic reactions, it has been widely used in research in the fields of chemistry and life sciences. Uses: Scientific research. Group: Biochemical assay reagents. Alternative Names: TMPhen; 3,4,7,8-Tetramethyl-1,10-phenanthroline. CAS No. 1660-93-1. Pack Sizes: 1 g. Product ID: HY-34515. | |
| 4,4',4?-s-Triazine-2,4,6-triyl-tribenzoic acid | 4,4',4''-s-Triazine-2,4,6-triyl-tribenzoic acid (H3TATB) is an electron acceptor that can be used in the synthesis of an electrochromic material (ECM). ECM can be used for a variety of applications such as electronic paper, smart windows, and energy storage devices. It can also be used in the formation of a metal-organic framework (MOF) for potential usage in CO2 adsorption. It can be used in the preparation of PCN-333(Al) based MOFs for the fabrication of an electrochemical biosensor. Group: Hydrogen storage materials metal organic frameworks (mofs). Alternative Names: 2,4,6-Tris(4-carboxyphenyl)-s-triazine,4,4',4"-[1,3,5]Triazine-2,4,6-triyl-tris-benzoicacid,p-Cyanobenzoicacidtrimer,H3TATB. CAS No. 61414-16-2. Product ID: 4-[4,6-bis(4-carboxyphenyl)-1,3,5-triazin-2-yl]benzoic acid. Molecular formula: 441.39. Mole weight: C6H4-1,4-(CO2H)2. C1=CC (=CC=C1C2=NC (=NC (=N2)C3=CC=C (C=C3)C (=O)O)C4=CC=C (C=C4)C (=O)O)C (=O)O. 1S/C24H15N3O6/c28-22 (29)16-7-1-13 (2-8-16)19-25-20 (14-3-9-17 (10-4-14)23 (30)31)27-21 (26-19)15-5-11-18 (12-6-15)24 (32)33/h1-12H, (H, 28, 29) (H, 30, 31) (H, 32, 33). MSFXUHUYNSYIDR-UHFFFAOYSA-N. 95%. | |
| 5-Amino-1,10-phenanthroline | 1,10-Phenanthrolin-5-amine is a potential fluorescent label for DNA detection. 1,10-Phenanthrolin-5-amine is used as a mediator for glucose oxidase for development of biosensors and biofuel cells. Group: Phenanthrolines. Alternative Names: 1,10-Phenanthrolin-5-amine. CAS No. 54258-41-2. Molecular formula: C12H9N3. Mole weight: 195.23. Appearance: White to Amber powder to crystal. Purity: >98.0%(GC). IUPACName: 1,10-phenanthrolin-5-amine. Canonical SMILES: C1=CC2=CC(=C3C=CC=NC3=C2N=C1)N. Catalog: ACM54258412. |  |
| 5-Amino-1,10-phenanthroline | 5-Amino-1,10-phenanthroline. Uses: 1,10-phenanthrolin-5-amine is a potential fluorescent label for dna detection. 1,10-phenanthrolin-5-amine is used as a mediator for glucose oxidase for development of biosensors and biofuel cells. Group: Ligands for functional metal complexessmall molecule semiconductor building blocks. Alternative Names: 1,10-Phenanthrolin-5-amine. CAS No. 54258-41-2. Product ID: 1,10-phenanthrolin-5-amine. Molecular formula: 195.23. Mole weight: C12H9N3. C1=CC2=CC(=C3C=CC=NC3=C2N=C1)N. InChI=1S / C12H9N3 / c13-10-7-8-3-1-5-14-11 (8) 12-9 (10) 4-2-6-15-12 / h1-7H, 13H2. DKPSSMOJHLISJI-UHFFFAOYSA-N. >98.0%(GC). | |
| 5-FAM-Alkyne | 5-FAM-Alkyne is a high selective and sensitive fluorescent biosensor for alkaline phosphatase (ALP) [1]. 5-FAM-Alkyne is a click chemistry reagent, it contains an Alkyne group and can undergo copper-catalyzed azide-alkyne cycloaddition (CuAAc) with molecules containing Azide groups. Uses: Scientific research. Group: Signaling pathways. CAS No. 510758-19-7. Pack Sizes: 10 mM * 1 mL; 5 mg; 10 mg; 25 mg; 50 mg. Product ID: HY-130913. | |
| 5-Nitro-1,10-phenanthroline | 5-Nitro-1,10-phenanthroline (5-NP), is a o-Phenanthroline (HY-W004544) derivative, as a mediator of glucose oxidase ( GOX ) with antituberculous activity. 5-Nitro-1,10-phenanthroline can be applied as redox mediators for oxidases and is suitable for the development of reagent-less biosensors and biofuel cells [1] [1]. Uses: Scientific research. Group: Natural products. Alternative Names: 5-NP. CAS No. 4199-88-6. Pack Sizes: 10 mM * 1 mL; 100 mg; 500 mg; 1 g; 5 g. Product ID: HY-W004570. | |
| 8-[(6-Amino)hexyl]-amino-ATP - ATTO-540Q | 8-[(6-Amino)hexyl]-amino-ATP - ATTO-540Q, a fluorescent nucleotide analog, is a frequently applied chemical compound in the field of biochemistry and biomedicine, predominantly employed in assays and microscopy studies to investigate protein nucleotide-binding activities and ATP-reliant processes. Owing to its exceptional properties, it also finds significant applications in the advancement of biosensors, rendering it a promising tool for ATP-level detection in biological entities. Synonyms: 8-[(6-Amino)hexyl]-amino-adenosine-5'-triphosphate, labeled with ATTO 540Q, Triethylammonium salt. Grades: ≥ 95% by HPLC. Molecular formula: C16H30N7O13P3- ATTO 540Q (free acid). Mole weight: 1161.37 (free acid). | |
| 99.7% TI3AlC2 powder material | MAX phase ceramics (including titanium silicon carbide, Ti3AlC2 materials, etc.) is a new type of machinable conductive ceramic material that has attracted much attention. Ti3SiC2 is the most extensively studied. Uses: Max has been widely used in nano-adsorption, biosensors, ion screening, catalysis, lithium-ion batteries, supercapacitors, lubrication and many other fields. Group: Mxenes materials. CAS No. 196506-01-1. 0.997. | |
| Acid Red 18 | Acid Red 18. Synonyms: New Coccine, Acid Red 18, Ponceau 4 R. CAS No. 2611-82-7. Pack Sizes: Bottomless glass bottle. Contents are inside inserted fused cone. Product ID: CDC10-0146. Molecular formula: C20H11N2O10S3Na3. Category: Cosmetic Color Additives. Product Keywords: Cosmetic Ingredients; Cosmetic Color Additives; Acid Red 18; CDC10-0146; 2611-82-7; C20H11N2O10S3Na3; New Coccine, Acid Red 18, Ponceau 4 R; 220-036-2; MFCD00004084; 2611-82-7. Purity: ≥98.0% (HPLC). Color: Bordeaux to brown. EC Number: 220-036-2. Physical State: Powder. Solubility: DMSO (Slightly, Heated, Sonicated), Methanol (Slightly, Heated), Water (Slightly. Quality Level: 100. Storage: Inert atmosphere,Room Temperature. Application: Ponceau 4R was used in the determination of contents of several additives in different non-alcoholic beverages using HPLC. It was used in understanding the genotoxicity of colorants. It was also used in preparing a falsified drink in the analysis of methanol-ethanol mixture using biosensors amperometric system. Melting Point: >300°C. Product Description: Ponceau 4R is a synthetic red azo dye and is used as a food colorant. It is used in range of alcoholic and non-alcoholic beverages, food stuffs, preserved fruits etc. It exists as trisodium-2-hydroxy-1-(4-sulfonato-1-naphthylazo)-6,8-naphthalenedisulfonate. |  |
| Allyl-modified gelatin | The polymer product is a polymer that is derived from natural sources, with or without chemical modification. Uses: Gelatin has received significant attention in the biomedical field due to its inherent bioactivity. functionalized gelatin can be crosslinked with the formation of covalent bonds into highly crosslinked structures, such as hydrogels. recent literature suggests that radical-mediated polymerized hydrogels may not be ideal for cell and protein encapsulation due to radical-mediated damage, hindered molecular transport, or altered cell-cell/cell-material interactions. allyl-modified gelatin can be used to form hydrogels with multifunctional thiol crosslinkers via thiol-ene click or michael-addition reactions. allyl-modified gelatin can be used in the synthesis of synthetic hydrogels, which can be potentially used in applications such as drug delivery and biosensors. Group: Natural polymers and biopolymers. Alternative Names: Pentenoyl gelatin, Gelatin-ene. | |
| Aminated monolayer Ti3C2 dispersion | Aminated monolayer Ti3C2 dispersion. Uses: Nano-adsorption, biosensors, ion screening, catalysis, lithium-ion batteries, supercapacitors, lubrication and many other fields. Group: Mxenes materials. ≥98%. | |
| Aminated monolayer Ti3C2 powder | Aminated monolayer Ti3C2 powder. Uses: Nano-adsorption, biosensors, ion screening, catalysis, lithium-ion batteries, supercapacitors, lubrication and many other fields. Group: Mxenes materials. ≥98%. | |
| BioGraphene | BioGraphene. Uses: Biosensors bioelectronics drug delivery bioassays biological research. Group: Graphenes. | |
| BioGraphene | BioGraphene. Uses: Biosensors bioelectronics drug delivery bioassays biological research. Group: other nano materials graphene series. | |
| Carbon nanotube, single-walled | ≥90% carbon basis (≥80% as carbon nanotubes), 1.3 nm diameter. Uses: Carbon nanotube, single-walled (swnt) belongs to the class of carbonaceous materials with excellent physiochemical, thermo-mechanical and electrochemical properties. this material can be used in a variety of sustainable energy applications such as solar cells, photocatalysis, thin film conductors, field effect transistors (fets), biosensor, gas sensor, supercapacitor and nanomechanical resonators.suitable for use in conductive composites and coatings.functionalized single-walled carbon nanotubes (swnts) embedded in an insulating polymer matrix may be used as stable hole collection layer in perovskite solar cells.manufacturing, characterization and use of swcnts. Group: 3d printing materials supercapacitorscarbon nano materials. Alternative Names: SWCNT, SWNT, Signis Cg200, CHASM, CNT, Single wall carbon nanotube. CAS No. 308068-56-6. Pack Sizes: 250 mg/1 g. Molecular formula: 12.01. Mole weight: C. ≥98%carbonbasis. | |
| Carbon nanotube, single-walled, carboxylic acid functionalized | Functional group :carboxyl. Uses: Carboxylated swnts were used to modify an indium tin oxide (ito) electrode towards the fabrication of a novel electrochemical immunosensor. carboxylated swnts was further multifunctionalized and were used in studying the influence of attached chemical group on the sorption of pyrene conjugates of oligonucleotides. an electrochemical dna biosensor was reportedly designed using functionalized swnts. it was used in the preparation of the chlorocarbonyl-functionalized swnt. it was used to fabricate swnts/(pb, zn)-phosphate glass composite structure for the dual use as light sensor and photocurrent converter. interaction of carboxylated swnt with caco-2 was investigated in detail. Group: 3d printing materials carbon nano materials. Pack Sizes: 1 g in glass bottle 250 mg in glass insert. | |
| Carboxylated monolayer Ti3C2 dispersion | Carboxylated monolayer Ti3C2 dispersion. Uses: Nano-adsorption, biosensors, ion screening, catalysis, lithium-ion batteries, supercapacitors, lubrication and many other fields. Group: Mxenes materials. ≥98%. | |
| Carboxylated monolayer Ti3C2 powder | Carboxylated monolayer Ti3C2 powder. Uses: Nano-adsorption, biosensors, ion screening, catalysis, lithium-ion batteries, supercapacitors, lubrication and many other fields. Group: Mxenes materials. ≥98%. | |
| Celestine Blue | Celestine Blue is a electroactive indicator in DNA biosensors. Celestine Blue is strongly adsorbed on the spinel phases and CNT (carbon nanotubes), facilitates dispersion, acts as a capping agent and allows for the fabrication of spinel decorated CNT. Celestine Blue is an efficient charge transfer mediator, which allows for significant improvement of capacitive behavior. TiO 2 nanoparticles doped with Celestine Blue can be used as a label in a sandwich immunoassay for the hepatitis C virus (HCV) core antigen [1] [2] [3]. Uses: Scientific research. Group: Fluorescent dye. CAS No. 1562-90-9. Pack Sizes: 1 g; 5 g. Product ID: HY-D0948. | |
| Cellulose Acetate | Cellulose acetate was used in the fabrication of gold microelectrode for electrochemical monochloramine measurement. Cellulose acetate based membranes are used in the separations in aqueous systems and in reverse osmosis process. It has been reported to be used to desalinate seawater.Cellulose acetate was used for biosensor encapsulation. It was used in the preparation of cellulose acetate nanofibre felt structure, cellulose acetate fibers. Uses: Used as a polymer (acetate fibers, yarn, and plastics), waterproofing agent (fabrics), and to make rubber and celluloid substitutes; also used in nonflammable photographic films, varnishes and lacquers, filaments, phonograph records; magnetic tapes, coatings for skins, wire insulation, thermoplastic molds, cell membranes, sewage treatment, and food packaging. Group: Natural polymers and biopolymerspolymers. Alternative Names: Acetylcellulose Cellulose Acetate 9004-35-7 Acetylcellulose Cellulose, acetate Acetate cotton Acetate ester of cellulose Acetose. CAS No. 9004-35-7. Product ID: [(2R,3S,4S,5R,6R)-5-acetyloxy-3,4,6-trihydroxyoxan-2-yl]methyl acetate. Molecular formula: 264.23g/mol. Mole weight: C10H16O8. CC(=O)OCC1C(C(C(C(O1)O)OC(=O)C)O)O. InChI=1S/C10H16O8/c1-4 (11)16-3-6-7 (13)8 (14)9 (10 (15)18-6)17-5 (2)12/h6-10, 13-15H, 3H2, 1-2H3/t6-, 7-, 8+, 9-, 10-/m1/s1. SMEGJBVQLJJKKX-HOTMZDKISA-N. | |
| Cellulose acetate - MW 30,000 | Cellulose acetate was used in the fabrication of gold microelectrode for electrochemical monochloramine measurement. Cellulose acetate based membranes are used in the separations in aqueous systems and in reverse osmosis process. It has been reported to be used to desalinate seawater.Cellulose acetate was used for biosensor encapsulation. It was used in the preparation of cellulose acetate nanofibre felt structure, cellulose acetate fibers. Synonyms: Acetic acid, cellulose ester; Acetyl cellulose; Acetylcellulose. CAS No. 9004-35-7. | |
| Chlorine-terminated monolayer Ti3C2 | Chlorine-terminated monolayer Ti3C2. Uses: Nano-adsorption, biosensors, ion screening, catalysis, lithium-ion batteries, supercapacitors, lubrication and many other fields. Group: Mxenes materials. 65~75%. | |
| Creatinase, microorganism | Creatine amidinohydrolase, microorganism is a hydrolytic enzyme that catalyzes the hydrolysis of creatine into creatinine and urea, playing a crucial role in the measurement of creatinine concentration. Creatine amidinohydrolase, microorganism can be used in the development of biosensors for measuring serum creatinine levels [1]. Uses: Scientific research. Group: Signaling pathways. Alternative Names: Creatine amidinohydrolase, microorganism. CAS No. 37340-58-2. Pack Sizes: 1 KU; 5 KU. Product ID: HY-P2893B. | |
| EDA-ATPγS - ATTO-565 | EDA-ATPγS - ATTO-565 is a highly sought-after fluorescent probe, serving as an invaluable tool in protein and peptide labeling. It offers exceptional capabilities in the visualization and detection of intricate protein-ligand interactions, protein-protein interactions and enzymatic activity. This impeccable probe stands as an indispensable compound in pivotal studies encompassing drug discovery, protein labeling, as well as cutting-edge biosensor development for afflictions of grave significance, most notably cancer and neurodegenerative disorders. Synonyms: 2'/3'-O-(2-Aminoethyl-carbamoyl)-adenosine-5'-(γ-thio)-triphosphate, labeled with ATTO 565, Triethylammonium salt. Grades: ≥ 90 % by HPLC, contains approx. 5 % EDA-ADP-dye. Molecular formula: C44H50N9O17P3S (free acid). Mole weight: 1101.91 (free acid). | |
| EDA-m7GP5G | EDA-m7GP5G-a revolutionary compound that has garnered attention in the biomedical research community for its unique ability to act as a fluorescent biosensor. Specifically designed to detect GTP levels in living cells, this cutting-edge solution boasts vast potential for advancing the study of GTPase signaling pathways and has sparked newfound interest in drug discovery for devastating diseases such as cancer and neurological disorders. Synonyms: 2'/3'-O-(2-Aminoethyl-carbamoyl)-P;-(5'-7-Methyl-Guanosyl)- P;-(5'-Guanosyl)pentaphosphate, Sodium salt. Grades: ≥ 95 % by HPLC. Molecular formula: C24H37N12O25P5(free acid). Mole weight: 1048.49 (free acid). | |
| Galactose Oxidase from Dactylium dendroides, Recombinant | Galactose oxidase is an extracellular copper-containing enzyme, secreted by the deuteromycete fungus Dactylium dendroides. It catalyzes the oxidation of a range of primary alcohols, including D-galactose, to the corresponding aldehyde, with reduction of oxygen to hydrogen peroxide. Galactose oxidase (gao) is a recombinantly expressed copper activated enzyme derived from dactylium dendroides that catalyzes the stereospecific oxidation of d-isomer primary alcohols to aldehydes and hydrogen peroxide (1-3). gao has a range of substrates that include d-galactose and polysaccharides, glycolipids, or glycoproteins with d-galactose at their non-reducing end. Applications: Gao has been shown to be useful in a number of biotechnology and medical applications which include monitoring of galactose in blood and urine, paper strengthening additives, test strips for cancer diagnosis, biosensors and lactose detection, dental care and hair coloring and waving. Group: Enzymes. Synonyms: EC 1.1.3.9; D-galactose o. CAS No. 9028-79-9. Purity: >95% by SDS-PAGE. Galactose Oxidase. Mole weight: 68.9 kDa (Calculated). Activity: >1750 U/mg. Stability: 3-6 months. Storage: 2-8°C. Avoid multiple freeze/thaw cycles. Source: Dactylium dendroides. EC 1.1.3.9; D-galactose oxidase; β-galactose oxidase; 9028-79-9; Galactose Oxidase. Cat No: NATE-1288. |  |
| γ-(6-Aminohexyl)-dATP - ATTO-532 | γ-(6-Aminohexyl)-dATP - ATTO-532 is a fluorescent nucleotide widely used in biomedical research. This product is specifically designed for DNA labeling and sequencing. Used as a biosensor, it facilitates the identification and tracking of specific DNA sequences involved in genetic diseases and drug discovery. Its emission wavelength at 532 nm makes it ideal for fluorescence microscopy and confocal imaging applications. Synonyms: γ-(6-Aminohexyl)-2'-deoxyadenosine-5'-triphosphate, labeled with ATTO-532, Triethylammonium salt. Grades: ≥ 95 % by HPLC. Molecular formula: C45H57N9O21P3S2(free acid). Mole weight: 1217.03 (free acid). | |
| Graphene Oxide Dispersion | Graphene Oxide Dispersion. Uses: The spin-coated reduced graphene oxide (rgo) thin films have been used as annode buffer layer to fabricate bulk heterojunction org. solar cells. pegylated rgo may be used as: chemical sensors, biosensors as transparent electrodes in light emitting diodes (leds) and itos in lithium ion batteries. Group: other nano materials graphene series. Alternative Names: Graphene oxide suspension, graphene oxide solution, graphene nanocolloids, colloidal graphene oxide. | |
| H-Gly-Gly-His-OH | Diglycyl-histidine has been used in biosensors for the electrochemical detection of Cu(II) ions. Synonyms: Diglycyl-histidine; Glycylglycyl-L-histidine; Gly-gly-his; (S)-2-(2-(2-Aminoacetamido)acetamido)-3-(1H-imidazol-4-yl)propanoic acid. CAS No. 7451-76-5. Molecular formula: C10H15N5O4. Mole weight: 269.26. | |
| Hydroxylated monolayer Ti3C2 dispersion | Hydroxylated monolayer Ti3C2 dispersion. Uses: Nano-adsorption, biosensors, ion screening, catalysis, lithium-ion batteries, supercapacitors, lubrication and many other fields. Group: Mxenes materials. ≥98%. | |
| MAleimido-3,5-disuccinimidyl isophthalate | MDSI is a cross-linker commonly used in bioconjugation reactions to covalently link proteins, peptides, and other biomolecules. MDSI is often used to develop novel biomaterials, such as hydrogels, which can be used in tissue engineering and drug delivery applications. MDSI is also used in biosensor development to immobilize enzymes and other biomolecules to the sensor surface. Group: Organic frame monomer block. Alternative Names: MDSI. CAS No. 1257094-24-8. Molecular formula: C20H13N3O10. Mole weight: 455.34 g/mol. Purity: 0.95. IUPACName: bis(2,5-dioxopyrrolidin-1-yl) 5-(2,5-dioxopyrrol-1-yl)benzene-1,3-dicarboxylate. Canonical SMILES: C1CC (=O)N (C1=O)OC (=O)C2=CC (=CC (=C2)N3C (=O)C=CC3=O)C (=O)ON4C (=O)CCC4=O. Catalog: ACM1257094248. | |
| Maleimido-Tri(Ethylene Glycol)-Acetic Acid | Maleimido-Tri(Ethylene Glycol)-Acetic Acid is derived from Triethylene Glycol Monobenzyl Ether (T776515), which is used in the preparation of self-assembled monolayers with multiple binding sites and biocompatible imprinted cavities for biosensor application. Also used in the synthesis of novel ethoxylated inositol surfactants. Group: Biochemicals. Grades: Highly Purified. CAS No. 518044-38-7. Pack Sizes: 10mg, 25mg. Molecular Formula: C12H17NO7, Molecular Weight: 287.27. US Biological Life Sciences. | Worldwide |
| Meldola blue | Meldola blue is a biosensor for measuring lactate in serum based on screen-printed carbon electrodes modified with Meldola's Blue-Reinecke salt (MBRS-SPCE) coated with lactate dehydrogenase NAD+-dependent enzyme (from pig heart) and NAD+. Uses: Scientific research. Group: Fluorescent dye. CAS No. 7057-57-0. Pack Sizes: 10 mg; 25 mg; 50 mg; 100 mg. Product ID: HY-D0808. | |
| Meldola Blue | A biosensor for the measurement of lactate in serum has been developed, which is based on a screen-printed carbon electrode, modified with Meldola's Blue-Reinecke Salt (MBRS-SPCE), coated with the enzyme lactate dehydrogenase NAD+ dependent (from Porcine heart), and NAD+. A cellulose acetate layer was deposited on the top of the device to act as a permselective membrane. Group: Biochemicals. Alternative Names: 9- (Dimethylamino) benzo[a]phenoxazin-7-ium Chloride Zinc Chloride; Meldola's Blue; Zinc Chloride 9- (Dimethylamino) benzo[a]phenoxazin-7-ium Chloride; Basic Leather Blue D; Meldola Blue. CAS No. 7057-57-0. Pack Sizes: 2.5mg. Molecular Formula: C??H??ClN?O xZnCl?. US Biological Life Sciences. | Worldwide |
| Metal-supported monolayer Ti3C2 | Metal: Fe, Co, Mn, Pt. Uses: Nano-adsorption, biosensors, ion screening, catalysis, lithium-ion batteries, supercapacitors, lubrication and many other fields. Group: Mxenes materials. ≥98%. | |
| ML-030 | ML-030, a triazolothiadiazine, is a potent PDE4 inhibitor in a cell-based cyclic nucleotide-gated cation channel biosensor assay (EC50 = 18.7 nM), with IC50 of 6.7 nM, 12.9 nM, 48.2 nM, 37.2 nM, 452 nM and 49.2 nM for PDE4A, PDE4A1, PDE4B1, PDE4B2, PDE4C1,and PDE4D2, respectively. Synonyms: ML-030; ML 030; ML030; CID-11757146; CID 11757146; CID11757146. 3-(2,5-dimethoxyphenyl)-6-(3,4-dimethoxyphenyl)-7H-[1,2,4]triazolo[3,4-b][1,3,4]thiadiazine. CAS No. 1013750-77-0. Molecular formula: C20H20N4O4S. Mole weight: 412.46. | |
| Mo2TiAlC2 MAX phase material | Mo2TiAlC2 MAX phase material. Uses: Max has been widely used in nano-adsorption, biosensors, ion screening, catalysis, lithium ion batteries, supercapacitors, lubrication and many other fields. Group: Mxenes materials. 0.99. | |
| MoAlB MAX phase material | MoAlB MAX phase material. Uses: Max has been widely used in nano-adsorption, biosensors, ion screening, catalysis, lithium ion batteries, supercapacitors, lubrication and many other fields. Group: Mxenes materials. 0.99. | |
| Monolayer Mo2C dispersion | Monolayer Mo2C dispersion. Uses: Nano-adsorption, biosensors, ion screening, catalysis, lithium-ion batteries, supercapacitors, lubrication and many other fields. Group: Mxenes materials. >95%. | |
| Monolayer Mo2C powder | Monolayer Mo2C powder. Uses: Nano-adsorption, biosensors, ion screening, catalysis, lithium-ion batteries, supercapacitors, lubrication and many other fields. Group: Mxenes materials. >95%. | |
| Monolayer Nb4C3 dispersion | Monolayer Nb4C3 dispersion. Uses: Nano-adsorption, biosensors, ion screening, catalysis, lithium-ion batteries, supercapacitors, lubrication and many other fields. Group: Mxenes materials. CAS No. 12316-56-2. >95%. | |
| Monolayer Ta4C3 dispersion | Monolayer Ta4C3 dispersion. Uses: Nano-adsorption, biosensors, ion screening, catalysis, lithium-ion batteries, supercapacitors, lubrication and many other fields. Group: Mxenes materials. >95%. | |
| Monolayer Ta4C3 powder | Monolayer Ta4C3 powder. Uses: Nano-adsorption, biosensors, ion screening, catalysis, lithium-ion batteries, supercapacitors, lubrication and many other fields. Group: Mxenes materials. >95%. | |
| Monolayer Ti2C dispersion | Monolayer Ti2C dispersion. Uses: Mxenes and mxenes-based nanocomposites have been widely used in nano-adsorption, biosensors, ion screening, catalysis, lithium-ion batteries, supercapacitors, lubrication and many other fields. Group: Mxenes materials. CAS No. 12316-56-2. >95 wt%. | |
| Monolayer Ti2C powder | Monolayer Ti2C powder. Uses: Mxenes and mxenes-based nanocomposites have been widely used in nano-adsorption, biosensors, ion screening, catalysis, lithium-ion batteries, supercapacitors, lubrication and many other fields. Group: Mxenes materials. CAS No. 12316-56-2. >95 wt%/70-80 wt%. | |
| Monolayer Ti2N dispersion | Monolayer Ti2N dispersion. Uses: Nano-adsorption, biosensors, ion screening, catalysis, lithium-ion batteries, supercapacitors, lubrication and many other fields. Group: Mxenes materials. >95%. | |
| Monolayer Ti3C2 dispersion | The solution is dark green at low concentration and black at high concentration. Due to the dispersibility of the material itself, if you need a single-layer MXene dispersion with a concentration exceeding the specification or other organic solvents, it is recommended to purchase a single-layer freeze-dried powder to disperse by yourself. Uses: Nano-adsorption, biosensors, ion screening, catalysis, lithium-ion batteries, supercapacitors, lubrication and many other fields. Group: Mxenes materials. CAS No. 12363-89-2. | |
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