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Journal articles on the topic '030606 Structural Chemistry and Spectroscopy'

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Published: 10 December 2022
Last updated: 29 January 2023

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1

Marek, Radex, and Antonin Lycka. "15N NMR Spectroscopy in Structural Analysis." Current Organic Chemistry 6, no. 1 (January 1, 2002): 35–66. http://dx.doi.org/10.2174/1385272023374643.

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2

Morrish, Allan H. "M�ssbauer spectroscopy as used in structural chemistry." Structural Chemistry 2, no. 3-4 (1991): (3)211—(14)222. http://dx.doi.org/10.1007/bf00672217.

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3

Strokov, I. I., K. S. Lebedev, and B. G. Derendyaev. "Structural data representation and search for structural analogs in molecular spectroscopy databases." Journal of Structural Chemistry 37, no. 6 (November 1996): 954–62. http://dx.doi.org/10.1007/bf02439081.

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4

Zemčik, Tomáš. "Mössbauer spectroscopy and structural analysis of solids." Fresenius' Journal of Analytical Chemistry 349, no. 1-3 (January 1994): 26–31. http://dx.doi.org/10.1007/bf00323219.

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5

MORRISH, A. H. "ChemInform Abstract: Moessbauer Spectroscopy as Used in Structural Chemistry." ChemInform 22, no. 32 (August 22, 2010): no. http://dx.doi.org/10.1002/chin.199132330.

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6

Spangler, Lee H. "STRUCTURAL INFORMATION FROM METHYL INTERNAL ROTATION SPECTROSCOPY." Annual Review of Physical Chemistry 48, no. 1 (October 1997): 481–510. http://dx.doi.org/10.1146/annurev.physchem.48.1.481.

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7

Wang, Guangshun. "Structural Biology of Antimicrobial Peptides by NMR Spectroscopy." Current Organic Chemistry 10, no. 5 (March 1, 2006): 569–81. http://dx.doi.org/10.2174/138527206776055259.

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8

SETO, Haruo. "Structural studies of natural products by NMR spectroscopy." Journal of Synthetic Organic Chemistry, Japan 45, no. 8 (1987): 729–44. http://dx.doi.org/10.5059/yukigoseikyokaishi.45.729.

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9

Grindley, T. Bruce, and Chandra Wickramage. "Structural Assignments of Ethylidene Acetals by NMR Spectroscopy." Journal of Carbohydrate Chemistry 4, no. 2 (June 1985): 171–92. http://dx.doi.org/10.1080/07328308508058830.

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10

Stemmler, Timothy, James E. Penner-Hahn, and Paul Knochel. "Structural characterization of organocopper reagents by EXAFS spectroscopy." Journal of the American Chemical Society 115, no. 1 (January 1993): 348–50. http://dx.doi.org/10.1021/ja00054a052.

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11

Fairhurst, S. A., K. F. Preston, and L. H. Sutcliffe. "Structural Studies of Inorganic Ring Systems by EPR Spectroscopy." Phosphorus, Sulfur, and Silicon and the Related Elements 93, no. 1-4 (August 1994): 105–16. http://dx.doi.org/10.1080/10426509408021803.

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12

Boyarkin, Oleg V. "Cold ion spectroscopy for structural identifications of biomolecules." International Reviews in Physical Chemistry 37, no. 3-4 (October 2, 2018): 559–606. http://dx.doi.org/10.1080/0144235x.2018.1547453.

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13

Keeler, Eric G., Vladimir K. Michaelis, Christopher B. Wilson, Ivan Hung, Xiaoling Wang, Zhehong Gan, and Robert G. Griffin. "High-Resolution 17O NMR Spectroscopy of Structural Water." Journal of Physical Chemistry B 123, no. 14 (March 18, 2019): 3061–67. http://dx.doi.org/10.1021/acs.jpcb.9b02277.

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14

George, Graham N., Ingrid J. Pickering, Hugh H. Harris, and Eileen Y. Yu. "Structural insights in bioinorganic chemistry from X-ray absorption spectroscopy." Journal of Inorganic Biochemistry 96, no. 1 (July 2003): 37. http://dx.doi.org/10.1016/s0162-0134(03)80467-1.

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15

Kosol, Simone, Sara Contreras-Martos, Cesyen Cedeño, and Peter Tompa. "Structural Characterization of Intrinsically Disordered Proteins by NMR Spectroscopy." Molecules 18, no. 9 (September 4, 2013): 10802–28. http://dx.doi.org/10.3390/molecules180910802.

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16

Riveira, Martín J., Agustina La-Venia, and Mirta P. Mischne. "Structural characterization of strained oxacycles by 13C NMR spectroscopy." Arkivoc 2011, no. 7 (February 6, 2011): 162–69. http://dx.doi.org/10.3998/ark.5550190.0012.714.

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17

Attanasio, Donato. "Structural information from powder ENDOR spectroscopy. Possibilities and limitations." Journal of the Chemical Society, Faraday Transactions 1: Physical Chemistry in Condensed Phases 85, no. 12 (1989): 3927. http://dx.doi.org/10.1039/f19898503927.

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18

Ciambellotti, Silvia, and Paola Turano. "Structural Biology of Iron-Binding Proteins by NMR Spectroscopy." European Journal of Inorganic Chemistry 2019, no. 5 (January 7, 2019): 569–76. http://dx.doi.org/10.1002/ejic.201801261.

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19

Maynard, Branson A., K. Sabrina Lynn, Richard E. Sykora, and Anne E. V. Gorden. "Emission, Raman Spectroscopy, and Structural Characterization of Actinide Tetracyanometallates." Inorganic Chemistry 52, no. 9 (April 17, 2013): 4880–89. http://dx.doi.org/10.1021/ic302459z.

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20

Kozioł, Agata, Kamila Środa-Pomianek, Agata Górniak, Agnieszka Wikiera, Konrad Cyprych, and Magdalena Malik. "Structural Determination of Pectins by Spectroscopy Methods." Coatings 12, no. 4 (April 18, 2022): 546. http://dx.doi.org/10.3390/coatings12040546.

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Plant polysaccharides include pectins, which are responsible for an important role in plant physiology and are part of the plant cell wall. These compounds are known as gelling and stabilizing agents, which are widely used in the food industry. The scientific literature lacks precise information on the spectroscopy of apple pectin and citrus pectin. Therefore, the aim of this work was to test and compare the physicochemical properties of these compounds. The curves of FT-IR, NMR, ESI-MS, and thermogravimetric analysis (TGA) of pectin samples were measured and discussed. The analysis of the spectroscopic results confirms that the isolated pectins using various enzymes (xylanase and cellulase) have a structure similar to the commercially available pectin (PectaSol-C), with a noticeable change in morphology. These characteristics are helpful for further basic research and application.
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21

YURTSEVER, ERSIN, and SERDAL KİRMİZİALTİN. "Vibrational spectroscopy of structural defects in oligothiophenes." Molecular Physics 101, no. 17 (September 10, 2003): 2725–29. http://dx.doi.org/10.1080/00268970310001603103.

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22

Cheetham, Norman W. H., Eva Fiala-Beer, and Gwen J. Walker. "Dextran structural details from high-field proton NMR spectroscopy." Carbohydrate Polymers 14, no. 2 (January 1990): 149–58. http://dx.doi.org/10.1016/0144-8617(90)90027-p.

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23

Lewis, A. T., K. Jones, K. E. Lewis, S. Jones, and P. D. Lewis. "Detection of Lewis antigen structural change by FTIR spectroscopy." Carbohydrate Polymers 92, no. 2 (February 2013): 1294–301. http://dx.doi.org/10.1016/j.carbpol.2012.09.078.

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24

Kuramochi, Hikaru, and Tahei Tahara. "Tracking Ultrafast Structural Dynamics by Time-Domain Raman Spectroscopy." Journal of the American Chemical Society 143, no. 26 (June 7, 2021): 9699–717. http://dx.doi.org/10.1021/jacs.1c02545.

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25

House, Karen L., R. Bruce Dunlap, Jerome D. Odom, Zhen Ping Wu, and Donald Hilvert. "Structural characterization of selenosubtilisin by selenium-77 NMR spectroscopy." Journal of the American Chemical Society 114, no. 22 (October 1992): 8573–79. http://dx.doi.org/10.1021/ja00048a033.

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26

Takahashi, Satoshi, Joseph W. Sam, Jack Peisach, and Denis L. Rousseau. "Structural Characterization of Iron-Bleomycin by Resonance Raman Spectroscopy." Journal of the American Chemical Society 116, no. 10 (May 1994): 4408–13. http://dx.doi.org/10.1021/ja00089a032.

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27

Viscardi, Guido, Pierluigi Quagliotto, Claudia Barolo, Giuseppe Caputo, Giuseppe Digilio, Iacopo Degani, and Ermanno Barni. "Structural characterisation of Nitrazine Yellow by NMR spectroscopy." Dyes and Pigments 57, no. 1 (April 2003): 87–95. http://dx.doi.org/10.1016/s0143-7208(02)00164-x.

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28

Bechinger, Burkhard, Rudolf Kinder, Michael Helmle, Titus C. B. Vogt, Ulrike Harzer, and Susan Schinzel. "Peptide structural analysis by solid-state NMR spectroscopy." Biopolymers 51, no. 3 (1999): 174–90. http://dx.doi.org/10.1002/(sici)1097-0282(1999)51:3<174::aid-bip2>3.0.co;2-7.

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29

Michelman-Ribeiro, Ariel, Hacène Boukari, Ralph Nossal, and Ferenc Horkay. "Structural Changes in Polymer Gels Probed by Fluorescence Correlation Spectroscopy." Macromolecules 37, no. 26 (December 2004): 10212–14. http://dx.doi.org/10.1021/ma048043d.

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30

Newby, Josh J., Ching-Ping Liu, Christian W. Müller, William H. James, Evan G. Buchanan, Hsiupu D. Lee, and Timothy S. Zwier. "Spectroscopy and Photophysics of Structural Isomers of Naphthalene:Z-Phenylvinylacetylene†." Journal of Physical Chemistry A 114, no. 9 (March 11, 2010): 3190–98. http://dx.doi.org/10.1021/jp909243y.

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31

McLntyre, Deane D., and Hans J. Vogel Calgary. "Structural Studies of Pullulan by Nuclear Magnetic Resonance Spectroscopy." Starch - Stärke 45, no. 11 (1993): 406–10. http://dx.doi.org/10.1002/star.19930451108.

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32

Marek, Radek, Antonin Lycka, Erkki Kolehmainen, Elina Sievanen, and Jaromir Tousek. "15N NMR Spectroscopy in Structural Analysis: An Update (2001 - 2005)." Current Organic Chemistry 11, no. 13 (September 1, 2007): 1154–205. http://dx.doi.org/10.2174/138527207781662519.

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33

Momzyakova, K. S., Z. T. Valishina, T. R. Deberdeev, A. A. Aleksandrov, A. A. Berlin, and R. Ya Deberdeev. "Structural Analysis of Powder Celluloses by FTIR Spectroscopy." Polymer Science, Series D 14, no. 2 (April 2021): 288–92. http://dx.doi.org/10.1134/s1995421221020222.

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34

Leonardy, Adrianus, Wen-Zhong Hung, Dah-Shyang Tsai, Chen-Chia Chou, and Ying-Sheng Huang. "Structural Features of SnO2Nanowires and Raman Spectroscopy Analysis." Crystal Growth & Design 9, no. 9 (September 2, 2009): 3958–63. http://dx.doi.org/10.1021/cg9000957.

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35

Barsberg, Søren, Pavel Matousek, and Mike Towrie. "Structural Analysis of Lignin by Resonance Raman Spectroscopy." Macromolecular Bioscience 5, no. 8 (August 12, 2005): 743–52. http://dx.doi.org/10.1002/mabi.200500042.

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36

Shukla, Ashish. "Structural and impedance spectroscopy study of Mn1.5Y1.5CSr1.5Ba1.5 antiperovskite." Ceramics International 47, no. 11 (June 2021): 15979–84. http://dx.doi.org/10.1016/j.ceramint.2021.02.172.

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37

Wang, Yan, Daniel C. Alsmeyer, and Richard L. McCreery. "Raman spectroscopy of carbon materials: structural basis of observed spectra." Chemistry of Materials 2, no. 5 (September 1990): 557–63. http://dx.doi.org/10.1021/cm00011a018.

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38

Zhao, Y. L., G. D. Lai, G. G. Li, Y. L. Shang, and J. C. Shi. "Identifying C2H4N4 structural isomers using fs-laser induced breakdown spectroscopy." Analyst 145, no. 22 (2020): 7372–79. http://dx.doi.org/10.1039/d0an01593h.

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39

Gawley, Robert E., Rosalyn Klein, Neil J. Ashweek, and Iain Coldham. "Structural studies of {6Li} 2-lithiopyrrolidines using NMR spectroscopy." Tetrahedron 61, no. 13 (March 2005): 3271–80. http://dx.doi.org/10.1016/j.tet.2005.01.098.

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40

Das, Asim Kumar, K. Sunanda, and B. N. Rajasekhar. "Spectroscopy of structural isomers of pentanes: An experimental and theoretical study." Journal of Molecular Structure 1245 (December 2021): 131126. http://dx.doi.org/10.1016/j.molstruc.2021.131126.

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41

Koudelka, Ladislav, Petr Kalenda, Petr Mošner, Zdeněk Černošek, Lionel Montagne, and Bertrand Revel. "Structural investigation of BaO B2O3P2O5 glasses by NMR and Raman spectroscopy." Journal of Molecular Structure 1119 (September 2016): 212–19. http://dx.doi.org/10.1016/j.molstruc.2016.04.066.

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42

de Oliveira, Vanessa E., Charlane Cimini Corrêa, Carlos B. Pinheiro, Renata Diniz, and Luiz Fernando C. de Oliveira. "Structural and spectroscopy studies of the zinc complex of p-hydroxyphenylporphyrin." Journal of Molecular Structure 995, no. 1-3 (May 2011): 125–29. http://dx.doi.org/10.1016/j.molstruc.2011.04.002.

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43

Chruszcz-Lipska, Katarzyna, Malgorzata Baranska, and Leonard M. Proniewicz. "1H and 13C NMR spectroscopy of structural isomers of pyridinephosphonic acids." Journal of Molecular Structure 876, no. 1-3 (March 2008): 278–87. http://dx.doi.org/10.1016/j.molstruc.2007.06.029.

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44

Liu, K. Z., and H. H. Mantsch. "Apoptosis-induced structural changes in leukemia cells identified by IR spectroscopy." Journal of Molecular Structure 565-566 (May 2001): 299–304. http://dx.doi.org/10.1016/s0022-2860(00)00817-6.

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45

Duca, Gheorghe, Lilia Anghel, and Raul Victor Erhan. "Structural Aspects of Lactoferrin and Serum Transferrin Observed by Ftir Spectroscopy." Chemistry Journal of Moldova 13, no. 1 (May 2018): 111–16. http://dx.doi.org/10.19261/cjm.2018.482.

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46

Wang, Si-Yuan, Xin Dong, Jun-Fei Chen, and Zhao-Hui Zhou. "Iron molybdenum nitrilotriacetate and iminodiacetate – spectroscopy, structural characterization and CO2 adsorption." New Journal of Chemistry 42, no. 23 (2018): 18526–32. http://dx.doi.org/10.1039/c8nj03475c.

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The tetranuclear iron molybdate Na6[(MoO2)2O2Fe2(nta)4]·16H2O (1) and its isomorphous complexes form 2D water layer structures in a modular manner, and a decanuclear heterometallic polymer, [(MoO4)2FeII4FeIII4(ida)8]n (2), contains an interesting cubic 3D microporous structure with a 3.3 Å diameter hole and can adsorb a small amount of CO2.
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47

Abdel-Rahman, A. S., S. Kamal Abdel-Aal, Gyula Faigel, Katalin Kamaras, Bortel Gábor, and Arron Pekker. "Vibrational spectroscopy as a confirmation method for structural analysis." Acta Crystallographica Section A Foundations and Advances 77, a2 (August 14, 2021): C956. http://dx.doi.org/10.1107/s0108767321087432.

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48

Virtanen, Valtteri, Susanna Räikkönen, Elina Puljula, and Maarit Karonen. "Ellagitannin–Lipid Interaction by HR-MAS NMR Spectroscopy." Molecules 26, no. 2 (January 12, 2021): 373. http://dx.doi.org/10.3390/molecules26020373.

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Ellagitannins have antimicrobial activity, which might be related to their interactions with membrane lipids. We studied the interactions of 12 different ellagitannins and pentagalloylglucose with a lipid extract of Escherichia coli by high-resolution magic angle spinning NMR spectroscopy. The nuclear Overhauser effect was utilized to measure the cross relaxation rates between ellagitannin and lipid protons. The shifting of lipid signals in 1H NMR spectra of ellagitannin–lipid mixture due to ring current effect was also observed. The ellagitannins that showed interaction with lipids had clear structural similarities. All ellagitannins that had interactions with lipids had glucopyranose cores. In addition to the central polyol, the most important structural feature affecting the interaction seemed to be the structural flexibility of the ellagitannin. Even dimeric and trimeric ellagitannins could penetrate to the lipid bilayers if their structures were flexible with free galloyl and hexahydroxydiphenoyl groups.
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49

Iriepa, Isabel, F. Javier Villasante, Enrique Gálvez, Antonio Herrera, Angel Sánchez, and Felix Cano. "Synthesis, structural and conformational study of selected N-substituted phthalimides." Open Chemistry 3, no. 4 (December 1, 2005): 683–704. http://dx.doi.org/10.2478/bf02475197.

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AbstractThis paper synthesizes N-substituted phthalimides derived from nitrogen heterocycles as potential 5-HT4 ligands by using the Mitsunobu reaction. Conformational studies of some of the new compounds have been conducted using 1H and 13C-NMR spectroscopy. Proton and carbon resonances were achieved through the application of one-dimensional selective NOE, two-dimensional NMR techniques-homonuclear COSY-45, NOESY and heteronuclear 1H-13C HMQC correlated spectroscopy- and double resonance experiments. The crystal structure of compound 1 was determined by X-ray diffraction.
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50

Galceran, M., M. C. Pujol, J. J. Carvajal, X. Mateos, C. Zaldo, M. Aguiló, and F. Díaz. "Structural characterization and ytterbium spectroscopy in Sc2O3 nanocrystals." Journal of Luminescence 130, no. 8 (August 2010): 1437–43. http://dx.doi.org/10.1016/j.jlumin.2010.03.008.

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