Av600 nmr spectrometer

Manufactured by Bruker

Sourced in Germany, United States

The AV600 NMR spectrometer is a nuclear magnetic resonance (NMR) instrument designed for analytical and research applications. It operates at a frequency of 600 MHz and is capable of performing high-resolution NMR spectroscopy on a variety of sample types. The AV600 provides detailed structural information about chemical compounds through the analysis of their nuclear spin properties.

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Lab products found in correlation

C18 ods a, by YMC (4 mentions) Ftir 8400s spectrometer, by Shimadzu (4 mentions) Q tof spectrometer, by Waters Corporation (3 mentions) Qci cryoprobe, by Bruker (3 mentions) Sephadex lh 20, by GE Healthcare (2 mentions) Uv 2550, by Shimadzu (2 mentions) Topspin 2, by Bruker (2 mentions) J 815 spectropolarimeter, by Jasco (2 mentions) Uv 2550 spectrophotometer, by Shimadzu (2 mentions) Silica gel column, by Qingdao Marine Chemical (2 mentions) Escalab 250xi, by Thermo Fisher Scientific (2 mentions) 241 polarimeter, by PerkinElmer (1 mentions) Uv 2201 spectrometer, by Shimadzu (1 mentions) Accurate mass q tof ms 6520 system, by Agilent Technologies (1 mentions) K 2600, by Knauer (1 mentions) J 815 spectrometer, by Jasco (1 mentions) Chromatographic silica gel, by Qingdao Marine Chemical (1 mentions) Yl9100 hplc system, by Younglin (1 mentions) Ltq orbitrap xl spectrometer, by Thermo Fisher Scientific (1 mentions) Rp c18, by Waters Corporation (1 mentions)

35 protocols using av600 nmr spectrometer

NMR Spectroscopic Characterization of Compounds

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Samples were prepared in deuterated dimethyl sulfoxide (DMSO-d₆). ¹H NMR spectra (400.23 MHz) were recorded on a Bruker Avance III 400 NMR spectrometer using a 5 mm BBFO probe with z-axis gradients. ¹³C spectra (150.90 MHz) were recorded on a Bruker AV600 NMR spectrometer using a 5 mm TCI cryoprobe. Spectra were referenced to residual solvent and assignments were supported by both 1D and 2D experiments.

Brandt S.D., Kavanagh P.V., Westphal F., Elliott S.P., Wallach J., Stratford A., Nichols D.E, & Halberstadt A.L. (2017). Return of the lysergamides. Part III: Analytical characterization of N6-ethyl-6-norlysergic acid diethylamide (ETH-LAD) and 1-propionyl ETH-LAD (1P–ETH-LAD). Drug testing and analysis, 9(10), 1641-1649.

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Spectroscopic Characterization of Natural Products

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Optical rotations were measured with a Perkin-Elmer 241 polarimeter. The UV spectra were conducted on a Shimadzu UV-2201 spectrometer. ECD spectra were recorded on a JASCO J-815 spectrometer. HRESIMS were recorded on Agilent Accurate-Mass-Q-TOF MS 6520 system equipped with electrospray ionization (ESI) source. NMR spectra were recorded on a Bruker AV-600 NMR spectrometer using TMS as an internal standard. The chromatographic silica gel (200–300 mesh) and polyamide (100–200 mesh) were purchased from Qingdao Marine Chemical Factory (Qingdao, China) and ODS (50 μm) was produced by YMC Co. LTD., Kyoto, Japan. Sephadex LH-20 was purchased from GE Healthcare. RP-HPLC separations were conducted using a Shimadzu LC-20AT liquid chromatograph with a YMC-PACK ODS-A column (250 × 10 mm, 5 μm) and Knauer K-2600 UV detector. Chiral separation was conducted in a Daicel AS-H column (250 × 4.6 mm, 5 μm) from Daicel Chemical Industries, Ltd. (Japan). TLC spots were visualized under UV light and by dipping into 10% H₂SO₄ in EtOH followed by heating. RAW 264.7 cells, human chronic myelogenous leukemia (K562) and human lung carcinoma (A549) cell lines were obtained from National infrastructure of cell line resource.

Liu Z., Zheng X., Wang Y., Tang M., Chen S., Zhang F., Li L., Zhang C, & Sun Y. (2018). Lignans and isoflavonoids from the stems of Pisonia umbellifera. RSC Advances, 8(29), 16383-16391.

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Enzymatic Synthesis and Purification of Glucoside

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Twenty-five mL of the reaction mixture (1 mg/mL GAA, 15 μg/mL BsGT110, 10 mM UDP-glucose, 10 mM MgCl₂, 50 mM acetate buffer at pH 6) was carried out at 40 °C for 30 min. Afterward, an equal volume of methanol was added into the reaction mixture to stop the reaction. Fifty mL of the reaction mixture with 50% methanol was applied to a preparative YL9100 HPLC system (YoungLin, Gyeonggi-do, Korea). The stationary phase was the Inertsil ODS 3 column (10 mm, 20 i.d. × 250 mm, GL Sciences, Eindhoven, The Netherlands), and the mobile phase was the same as that in the UPLC system, but with a flow rate of 15 mL/min. The detection condition was 254 nm, and the sample volume was 10 mL for each injection. The product of each run was collected, concentrated under a vacuum, and lyophilized with a freeze dryer. From the 25 mL of reaction, 5.4 mg of the product was purified. The chemical structure of the product compound was determined with mass and NMR spectral analyses. The mass spectral analysis was performed on a Finnigan LCQ Duo mass spectrometer (ThermoQuest Corp., San Jose, CA, USA) with ESI. ¹H- and ¹³C-NMR, HSQC, and HMBC spectra were recorded on a Bruker AV-600 NMR spectrometer (Bruker Corp., Billerica, MA, USA) at ambient temperature. Standard pulse sequences and parameters were used for the NMR experiments, and all chemical shifts were reported in parts per million (ppm, δ).

Chang T.S., Chiang C.M., Kao Y.H., Wu J.Y., Wu Y.W, & Wang T.Y. (2019). A New Triterpenoid Glucoside from a Novel Acidic Glycosylation of Ganoderic Acid A via Recombinant Glycosyltransferase of Bacillus subtilis. Molecules, 24(19), 3457.

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NMR Characterization of Deuterated Compounds

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All analytes were prepared in deuterated dimethyl sulfoxide (DMSO-d₆) at a concentration of 20 mg/mL. ¹H (600 MHz) and ¹³C (150 MHz) spectra were recorded on a Bruker AV600 NMR spectrometer using a 5 mm TCI cryoprobe. ¹H NMR spectra were referenced to an external TMS reference at δ = 0 ppm.

McLaughlin G., Baumann M.H., Kavanagh P.V., Morris N., Power J.D., Dowling G., Twamley B., O’Brien J., Hessman G., Westphal F., Walther D, & Brandt S.D. (2018). Synthesis, analytical characterization and monoamine transporter activity of the new psychoactive substance 4-methylphenmetrazine (4-MPM), with differentiation from its ortho- and meta- positional isomers. Drug testing and analysis, 10(9), 1404-1416.

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NMR Characterization of DMSO-d6 Samples

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All analytes were prepared in deuterated dimethyl sulfoxide (DMSO-d₆) at a concentration of 20mg/mL. ¹H (600MHz) and ¹³C (150 MHz) spectra were recorded on a Bruker AV600 NMR spectrometer using a 5 mm TCI cryoprobe. ¹H NMR spectra were referenced to an external TMS reference at δ = 0 ppm.

McLaughlin G., Morris N., Kavanagh P.V., Power J.D., Dowling G., Twamley B., O'Brien J., Talbot B., Walther D., Partilla J.S., Baumann M.H, & Brandt S.D. (2016). Synthesis, characterization and monoamine transporter activity of the new psychoactive substance mexedrone and its N-methoxy positional isomer, N-methoxymephedrone. Drug testing and analysis, 9(3), 358-368.

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Spectroscopic Analysis of Compounds

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Optical rotations were measured on a JASCO P-1020 digital polarimeter (Jasco Corp., Tokyo, Japan). UV spectra were recorded on a Thermo Scientific Multiskan GO microplate spectrophotometer (Thermo Scientific Co., Waltham, MA, USA) in MeOH. ECD spectra were recorded on a JASCO J-815 circular dichroism spectrometer (JASCO Electric Co., Ltd., Tokyo, Japan). IR spectra were determined on a Nicolet-Nexus-470 spectrometer (Thermo Electron Co., Madison, WI, USA) using KBr pellets. 1D and 2D NMR spectroscopic data (TMS as an internal standard) were acquired on Agilent DD2-500 (JEOL, Tokyo, Japan) and Bruker AV-600 NMR spectrometer (Bruker BioSpin GmbH Co., Rheinstetten, Germany). ESIMS and HRESIMS spectra were obtained from a Micromass Q-TOF spectrometer (Waters Corp., Manchester, UK), and a Thermo Scientific LTQ Orbitrap XL spectrometer (Thermo Fisher Scientific, Bremen, Germany). Semipreparative HPLC was performed on a Shimadzu LC-20 AT system using a RP-C18 (Waters, 5 μm, 10 × 250 mm) column.

Zhang Y.H., Geng C., Zhang X.W., Zhu H.J., Shao C.L., Cao F, & Wang C.Y. (2019). Discovery of Bioactive Indole-Diketopiperazines from the Marine-Derived Fungus Penicillium brasilianum Aided by Genomic Information. Marine Drugs, 17(9), 514.

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NMR Spectroscopy of Compound Samples

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Samples (20 mg) were dissolved in D₂O (1 ml, 99.8%) and stirred overnight at room temperature. ¹³C NMR spectra were obtained using a Bruker AV600 NMR spectrometer (Bruker Inc., Rheinstetten, Germany) operating at 150 MHz. Spectra were recorded at 25°C with 57 000 transients. Acetone was used as an internal standard [7 ].

Ji L., Jie Z., Ying X., Yue Q., Zhou Y, & Sun L. (2018). Structural characterization of alkali-soluble polysaccharides from Panax ginseng C. A. Meyer. Royal Society Open Science, 5(3), 171644.

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Characterization of Nanogel Drug Carriers

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Proton Nuclear Magnetic Resonance (¹H NMR) spectra were detected on a Bruker AV 600 NMR spectrometer (Billerica, MA, United States) using deuterated dimethyl sulfoxide (DMSO-d₆) as the solvent. Fourier-transform infrared spectroscopy (FT-IR) was performed on a Bio-Rad Win-IR instrument (Bio-Rad Laboratories Inc., Cambridge, MA, United States) by using potassium bromide method. The morphology of NGP/DOX and NGG/DOX nanogels were visualized on JEM-1011 transmission electron microscope (TEM; JEOL, Tokyo, Japan). Sizes of NGP/DOX and NGG/DOX were determined by dynamic laser scattering (DLS) measurement on a WyattQELS instrument (DAWN EOS, Wyatt Technology Corporation, Santa Barbara, CA, United States), and the scattering angle was set at 90°.

Niu K., Li N., Yao Y., Guo C., Ge Y, & Wang J. (2019). Polypeptide Nanogels With Different Functional Cores Promote Chemotherapy of Lung Carcinoma. Frontiers in Pharmacology, 10, 37.

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Multifaceted Characterization of Electrochemical Cells

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The FTIR spectra were collected from PerkinElmer Spectrum II FT-IR Spectrometer. The ¹H NMR spectra were acquired on a Bruker AVANCE III HD 400 NMR spectrometer using deuterated DMSO as the field frequency lock. The ⁶⁷Zn NMR spectra were acquired on a Bruker AV 600 NMR spectrometer using deuterated DMSO as the field frequency lock. The SEM images were collected from Hitachi SU4800. The ex situ SEM samples were obtained by disassembling the cell, extracting the electrode, washing by DI water for 3 times, and drying at vacuum (~25 °C) for 8 h.The DLS measurement was performed on DLS instrument (Zetasizer Nano ZS, Malvern Instruments Ltd) at 25 °C with scattering angle of 90° and laser wavelength of 632.8 nm. The ionic conductivities of the electrolytes were measured on a conductivity meter (DDS-11A, INESA) at ~25 °C.

Wang Y., Wang T., Bu S., Zhu J., Wang Y., Zhang R., Hong H., Zhang W., Fan J, & Zhi C. (2023). Sulfolane-containing aqueous electrolyte solutions for producing efficient ampere-hour-level zinc metal battery pouch cells. Nature Communications, 14, 1828.

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NMR Analysis of MDMAR Standards

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For NMR analysis, the MDMAR standards and the vendor sample were prepared in deuterated dimethyl sulfoxide (DMSO-d₆). ¹H(600 MHz) and ¹³C NMR spectra were recorded on a Bruker AV600 NMR spectrometer using a 5 mm TCI cryoprobe. ¹H NMR spectra were referenced to an external TMS reference at δ =0 ppm.

McLaughlin G., Morris N., Kavanagh P.V., Power J.D., Twamley B., O’Brien J., Talbot B., Dowling G., Mahony O., Brandt S.D., Patrick J., Archer R.P., Partilla J.S, & Baumann M.H. (2014). Synthesis, characterization, and monoamine transporter activity of the new psychoactive substance 3′,4′-methylenedioxy-4-methylaminorex (MDMAR). Drug testing and analysis, 7(7), 555-564.

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