01625nam--2200397---450-99000599269020331620150107093733.088-7898-064-1000599269USA01000599269(ALEPH)000599269USA0100059926920150107d2012----km-y0itay50------baitaITa|||||||001yyGuglielmo Du Tillot regista delle arti nell'età dei lumia cura di Gianfranco Fiaccadori, Alessandro Malinverni, Carlo Mambriani[Parma]Fondazione Cariparma2012190 p.ill.25 cmCatalogo della mostra tenuta a Parma, Palazzo Bossi Bocchi, 28 ottobre 2012-27 gennaio 2013In copertina: Università degli studi di Parma, Dipartimento di ingegneria civile, del territorio, dell'ambiente e architetturaArteCollezionismo [di] Du Tillot, François Guillaume LéonParmaSec. 18.Cataloghi di esposizioniBNCF709.4544109033FIACCADORI,GianfrancoMALINVERNI,AlessandroMAMBRIANI,CarloDU TILLOT,François Guillaume LéonUniversità degli studi di ParmaDipartimento di ingegneria civile, dell'ambiente, del territorio e architetturaITsalbcISBD990005992690203316XII.2.B. 1883248193 L.M.XII.2.365446BKUMAANNAMARIA9020150107USA010937Guglielmo Du Tillot regista delle arti nell'età dei lumi1078004UNISA03941nam 2200985z- 450 991055733180332120220111(CKB)5400000000042561(oapen)https://directory.doabooks.org/handle/20.500.12854/77035(oapen)doab77035(EXLCZ)99540000000004256120202201d2021 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierPractical Applications of NMR to Solve Real-World ProblemsBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20211 online resource (162 p.)3-0365-2580-7 3-0365-2581-5 Nuclear magnetic resonance spectroscopy (NMR) has developed from primarily a method of academic study into a recognized technology that has advanced measurement capabilities within many different industrial sectors. These sectors include areas such as national security, energy, forensics, life sciences, pharmaceuticals, etc. Despite this diversity, these applications have many shared technical challenges and regulatory burdens, yet interdisciplinary cross-talk is often limited. To facilitate the sharing of knowledge, this Special Issue presents technical articles from four different areas, including the oil industry, nanostructured systems and materials, metabolomics, and biologics. These areas use NMR or magnetic resonance imaging (MRI) technologies that range from low-field relaxometry to magnetic fields as high as 700 MHz. Each article represents a practical application of NMR. A few articles are focused on basic research concepts, which will likely have the cross-cutting effect of advancing multiple disciplinary areas.Biology, life sciencesbicsscResearch & information: generalbicssc1H NMRbinary mixturebiopharmaceuticalsBlastocystischemical shift differencecircular dichroismDion-Jacobson phaseflow measurementflow regime characterizationfluorescencegadoliniumglycoproteinglycosylated proteinsheteronuclear NMRhigher-order structureHOS by NMRHSQC-TOCSYimagingintermittent flowinvasion correctionlayered perovskite-like niobatelow-field magnetic resonancelow-field NMR relaxometryMahalanobis distancemass spectrometrymetabolite extraction, metabolomicsmetabolomicsMOFmultiphasen/anatural abundanceNMRnormal rangesnuclear magnetic resonanceoil-based mudparamagneticpeak profilepermeabilitypersonalized metabolic profilepipe flowprocess and reaction monitoringproduct characterizationproton NMRrelative peak heightrelaxationseparationsimilarity metricsslug flowT2 filtertertiary structuretwo-phase flowurine metabolomeBiology, life sciencesResearch & information: generalBrinson Robertedt1326445Brinson RobertothBOOK9910557331803321Practical Applications of NMR to Solve Real-World Problems3037440UNINA