th  - 1988 - 51st ENC Conference

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[---~N Eve 8:10] FLOW NMR AND DNP STUDIES OF DENSE FLUIDSz H. C. Dorn , T. E. Glass, L° Allen, R° Gittl, C° Tsaio, C° Wild, Department of Chemistry, Virginia Polytechnic Institute and State University, Blacksburg, VA 24061 and C. S. Yannoni, IBM Almaden Research Center, 650 Harry Road, San Jose, CA 95120. Recent experiments in our laboratory have demonstrated that a flowing liquid bolus provides a convenient way to independently optimize the "EPR" and "NMR" portions of the dynamic nuclear polarization DNP experiment. Specifically, flow -H DNP experiments at I0 GHz were found to require only 0.5-4 watts of microwave power in order to achieve saturation (s:l) of a given electron spin transition for a number of stable spin labels [e.g., tri-t-butylphenoxides, nitroxides, etc.). Flow H DNP results and applications will be presented for various flowing fluids (e.g., supercritlcal fluids and liquids). In addition, a new technique potentially appl~cable for monitoring surfaces, "s011d-liquld Intermolecular transfer [SLIT), H DNP" will also he discussed. 28
THE WORLD AND WONDERS OF 3H NMR SPECTROSCOPY: Philip G. MON illiam ," National Tritium Labeling Facility, Lawrence Berkeley Laboratory 75-123, Eve 8 4 0 Omverslty of California, Berkeley, California 94720. The NTLF is a national User Facility, funded by the National Institutes of Health. The Facility combines he availability of high levels of carrier free tritium gas, extensive radiochemical purification resources, and an n-house NMR instrument dedicated to tritium NMR spectroscopy. The NTLF combines its User service "unction with core and collaborative research based on the use of hydrogen isotopes. Tritium is an excellent nucleus for NMR observation, but NMR applications in the chemical and biological ;ciences have been very limited in number. "Onepulse" tritium measurements can quickly and cleanly give the :hemical shift and relative abundance of tritons in a sample, and in combination with other physical methods :an rapidly assure quality control in labelling experiments. In catalysis hydrogen isotope exchange is readily nonitored, with the relative incorporation at each position of a substrate yielding specificity rules for the :atalyst as well as mechanistic detail. Hydrogenation and halogen replacement reactions are the cornerstone of high level tritium labelling ~rocedures. Little is known about concomitant side-reactions, but these are extremely important when specific abelling is required. Observation of tritium NMR peaks from supposedly "unlabelled" positions obviates hese extra mechanisms, and allows the choice of appropriate precursors and reaction conditions for the iesirccl tritiation. ' ~ As one example, allylic methyl exchange in the hydrogenation of [3-methyl styrene to yield n- ~ropylbenzene is readily detected, and the full range of isotopomers can be distinguished by J-resolved ;pectroscopy. Secondly, tritio-dehalogenation of 2-chloro-2'-d.eoxyadenosine with pure "1"2 does not give ~roduct with the theoretical specific activity, and factors influencing this "dilution" may be followed. Important and developing uses of tritium NMR spectroscopy include monitoring of the conversion of ntermediates in biological systems, studies of substrate binding, and as an aid in spectral elucidation of proton qMR spectra. The use of modern multipulse techniques in concert with simple and elegant older sequences ms the potential for giving a great deal of conformational and coupling information, through the interaction of ~-H and 1-H atoms. NMR work at the Tritium Facility is intent on establishing the benefits and problems ~ssociated with tritium NMR spectroscopy of many diverse substrates - from simple organics to solids and nacromolecules. 29
Page 1 and 2: 29 th �� - 1988 Rochester
Page 3 and 4: PROGRAM: This conference program ha
Page 5 and 6: The Executive Committee of the 29th
Page 7 and 8: A A 0 0 ,-..1 I Z Z 0 "c N "1" i 0
Page 9 and 10: Restaurants in Rochester Restaurant
Page 11 and 12: 8:30 a.m. 8:35- 10:05 10:05 - 10:25
Page 13 and 14: 8:30 a.m. 8:35 a.m. 9:05 a.m. 9:15
Page 15 and 16: f~ I UNTRUNCATIO~I OF DIPOLE-DIPOLE
Page 17 and 18: MON 9:25 HIGH RESOLUTION ELECTROPHO
Page 19 and 20: • . r, 10:25 a.m. 10:55 a.m. 11:0
Page 21 and 22: ~'-O-i 0 N i0:55 MEASUREMENTS OF TW
Page 23 and 24: MON 11:3S 12D CHEMICAL SHIFT ANISOT
Page 25 and 26: 7:30 p.m. 8:00 p.m. 8:10 p.m. 8:40
Page 27: HON Eve 8:00 The 13C Relaxation Beh
Page 31 and 32: 8:30 a.m. 9:00 a.m. 9:10 a.m. 9:20
Page 33 and 34: TWO DIMENSIONAL LINEAR PREDICTION N
Page 35 and 36: TUE 9"20 ] 2D ROTATING FRAME SPECTR
Page 37 and 38: 10:40 a.m. 11:00 a.m. 11:20 a.m. 11
Page 39 and 40: TUE ii'00 J WATER SUPPRESSION TECHN
Page 41 and 42: TUE 11:30 J FREQUENCY SWITCHED INVE
Page 43 and 44: 7:30 p.m. 8:00 p.m. 8:30 p.m. 8:50
Page 45 and 46: • . r T[-~-UE ~ t~ve 8:00! 63,65C
Page 47 and 48: TUE Eve 8-50 } Cu NQR OF YBa2Cu30 x
Page 49 and 50: ~X [I'IED 8:30 I REMOVAL OF EXTRANE
Page 51 and 52: . r WED 9:25 ] A STATIC NMR IMAGE O
Page 53 and 54: WED 9" 45 IFLUID AND SOLID STATE NM
Page 55 and 56: i MULTIVOLUME SELECTIVE SPECTROSCOP
Page 57 and 58: [WED 11-10 I SELF SHIELDED GRADIENT
Page 59 and 60: [WED 11:45 ] ANGIOGRAPHY USING MAGN
Page 61 and 62: THU 8:30 "TETHERED" BIOLOGICAL SYST
Page 63 and 64: • / I DYNAMICS OF THE GRAMICIDIN
Page 65 and 66: I THU 9:40 I NMR STUDIES OF ANTI-SP
Page 67 and 68: THU 10"2S I NEW TECHNIQUES POR DYNA
Page 69 and 70: I THU 11 : 05 I DYNAMIC NUCLEAR POL
Page 71 and 72: THIS SECTION CONTAINS A LISTING OF
Page 73 and 74: 9 ELIMINATION OF PHASE ROLL, SOLVEN
Page 75 and 76: 25 NUCLEAR MAGNETIC RESONANCE STUDI
Page 77 and 78: ~k 41 A HYPO-RELAXATION AGENT; SIMU
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57 STRUCTURAL STUDIES OF LIPIDS IN
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73 THE AUTOMATED NMR LABORATORY; SP
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89 13C NMR ASSIGNMENTS OF DNA OLIGO
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105 EVALUATION OF DOUBLE TUNED CIRC
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121 BROADBAND SPIN DECOUPLING IN TH
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137 TWO-DIMENSIONAL 13C{15N}, 13C{1
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153 NMR CHARACTERIZATION OF THE SOL
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169 SPECTROSCOPY WITH EXACT APODIZA
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185 PARSING THE EDITED 1H NMR SIGNA
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. z 201 THE CORRELATION OF 1H-19F C
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i m 3 I 31p SOLID STATE NMR STUDIES
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CALCULATION OF 2951MAS NMR CHEMICAL
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AN NMR STUDY OF MISCIBLE BLENDS IN
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15 II9F CRAMPS OF INORGANIC FLUORID
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19 I DIPOLARAND SPIN-ROTATION POLAR
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2 3- I A SOLID-STATE 2H and 13C NMR
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27 1 COLLECTION OF PHOSPHORUS-31 NM
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31 DELAYED REFOCUSSING TWO-DIMENSIO
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35 DYNAMIC NUCLEAR POLARIZATION STU
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I 39 2D NMR STUDIES AT 600 MHZ OF A
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43 Coherent Averaging Theory Under
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46 CARBON-13 SPECTRAL ASSIGNMENTS O
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a b 48 SEMUT SPECTRAL EDITING, CALI
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'--- V 5 2 j INTERCONWERSION OF VAL
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[ ~ THE SOURCE OF AN ARTIFACT IN TH
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60 GLUCOSE METABOLISM IN PERFUSED H
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. °- F 64 I MICROSCOPIC IMAGING OF
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68 69 CONFORMATIONAL ANALYSIS via V
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72 I SCUBA, A MAY TOHARDS COMPLETE
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76 NMR CHARACTERIZATION OF THE GLYP
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8o I HIGH RESOLUTION MR IMAGING AT
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A PROBE WITH HIGHER DECOUPLING EFFI
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88 I SOLID STATE ll3cd I~CLEAR }~GE
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- - 92 l CHARACTERIZATION OF NORMAL
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96 AN EVALUATION OF NEW PROCESSING
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. . I00 I NOVEL RESONATOR DESIGNS,
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104 TAYLOR TRANSFORMATION OF 2D NMR
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108 PERFORMANCE COMPARISON OF DOUBL
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RECENT EXTENSIONS OF NOESYSIM, A PR
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116 ] NODIFICATIONS TO A JEOL GX270
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I 12 o I SPECIATION OF WATER IN GLA
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124 I A COMPLETELY INTEGRATED NETWO
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I-- 1 2 8 IVOLUME-SELECTIVE SIGNAL
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-- is 2 I NATURAL ABUNDANCE 13 C an
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. ° THREE-DIMENSIONAL STRUCTURE OF
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~-'-- 140 DIRECT OBSERVATION OF LON
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144 I I IH AND 13C REFOCUSED GRADIE
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~ (POSTER ABSTRACT) BARBARA LYONS/C
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1 52 I ~IR STUDY OF NAPHTHALENE TRA
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is6 I ROTATING FRAME COHERENCE TRAN
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16 0 I A 27AL MAS STUDY OF AMORPHOU
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164 I MODIFICATIOH OF A BRUKER WH-3
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IN VIVO 31p AND IH NMR SPECTROSCOPY
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. r 172 JMAGIC ANGLE SPINNING SEPAR
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2 . ° I- 176 I Michael A. Kennedy
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. o . o 180 l17o/Is NMR MICROSCOPY
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To be presented at the 29th Experim
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INHIBITION OF ALANINE RACEMASE BY T
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192 RESOLUTION ENHANCEMENT OF PHOSP
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196 1 TR FLUOROETHOXY DERIVATIVES:
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200 INTERPRETAT IION OF 13 C NHR MI
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204 RECENT PROGRESS IN HIGH RESOLUT
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Page No. ACEVEDO, H F 165 ACKERMAN,
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1:~ge No. GUO, D 200 GUO, W 196 GUO
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OPELLA, S J ORENDT, A M OTTING, G P
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ZLOTNIK-MAZORIo T ZUMBULYADIS, N Pa
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David B. Bailey USI Chemicals Co. 1
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Yvan Boulanger Univ de Montreal Ins
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Helga Cohen Univ of So Carolina Che
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F. David Doty Doty Scientific Inc.
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Alan Freyer Pennsylvania State Univ
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Gordon Hamer Xerox Research Center-
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Timothy Hyman Syracuse University 3
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Robert A Kinsey BF Goodrich 9921Bre
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Jay J. Listinsky U of Rochester-Dep
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Dale Mierke Univ of Calif, San Dieg
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Jeanne C Owens Chemistry Dept., '.1
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Gade S. Reddy DuPont Experimental S
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Charles Schramm Catalytica Assoc. I
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Richard F. Sprecher U.S. Dept of En
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Steve Unger U. C. Davis NMR Facilit
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Toni Wirthlin Varian Associates 611
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th  - 1988 - 51st ENC Conference

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