Nanostructure Initiator mass spectrometry

Rapid Screening of Fatty Acids Using Nanostructure-Initiator Mass Spectrometry

Cover ImageDepartment of Bioenergy/GTL & Structural Biology, Life Sciences Division, Lawrence Berkeley National Laboratory, 1 Cyclotron Road, Berkeley, California 94720

Anal. Chem., 2010, 82 (9), pp 3751–3755

Citing Articles

Citation data is made available by participants in CrossRef's Cited-by Linking service. For a more comprehensive list of citations to this article, users are encouraged to perform a search in SciFinder.

This article has been cited by 2 ACS Journal articles (2 most recent appear below).

  • J. Li, X. K. Hu, and R. H. Lipson

    Analytical Chemistry2013 85 (11), 5499-5505

  • On-chip Enrichment and Analysis of Peptide Subsets Using a Maleimide-functionalized Fluorous Affinity Biochip and Nanostructure Initiator Mass Spectrometry

    Cover ImageJ. Li, X. K. Hu, and R. H. Lipson

    A new nanostructure initiator mass spectrometry (NIMS) methodology is presented that uses the strategy of fluorous-phase immobilization and capture by a maleimide-functionalized affinity tag to selectively enrich peptide subsets containing cysteine ...

  • Matthew P. Greving, Gary J. Patti, and Gary Siuzdak

    Analytical Chemistry2011 83 (1), 2-7

      Nanostructure-Initiator Mass Spectrometry Metabolite Analysis and Imaging

      Matthew P. Greving, Gary J. Patti, and Gary Siuzdak

      Nanostructure-Initiator Mass Spectrometry (NIMS) is a matrix-free desorption/ionization approach that is particularly well-suited for unbiased (untargeted) metabolomics. An overview of the NIMS technology and its application in the detection of biofluid ...

  • LAP LAMBERT Academic Publishing Synthesis of Metal Oxide Nanostructures via Facile Chemical Routes: New Synthesis method for Multifunctional Nano-structures
    Book (LAP LAMBERT Academic Publishing)

    Catalyst Could Jump-Start E-Cars

    by 56andfixed

    June 4, 2013
    Los Alamos National Laboratory scientists have designed a new type of nanostructured-carbon-based catalyst that could pave the way for reliable, economical next-generation batteries and alkaline fuel cells, providing for practical use of wind- and solar-powered electricity, as well as enhanced hybrid electric vehicles.
    In a paper appearing recently in Nature Communications, Los Alamos researchers Hoon T. Chung, Piotr Zelenay and Jong H. Won, the latter now at the Korea Basic Science Institute, describe a new type of nitrogen-doped carbon-nanotube catalyst

    Depleted Uranium and our troops and all those

    by living-in-the-ME

    Oct. 2006: President George W. Bush signed the Department of Defense Authorization legislation. The House amendment was authored and introduced by Rep. Jim McDermott (D-Wa.) ordering a comprehensive study - with a report due in one year - on possible adverse health effects on U.S. soldiers from the U.S. military's use of DU - Depleted Uranium. The Senate companion bill was backed by Joe Lieberman of Conn., a democrat at the time. (McDermott's Web site: )
    Feb. 6, 2007: The New York newspaper, The Post Chronicle, reported that U

    Nanotubes Increase Solar PV Conductivity 100 Million-Fold  — Sourceable
    Carbon-based nanostructures are already being used as materials in solar cells with increasing frequency, yet their ability to enhance electrical performance has thus far been hampered by limited ability to assemble orderly networks using the materials.

    Related Posts