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- A theoretical study of sum-frequency generation for chiral solutions near electronic resonance. Ren-hui Zheng, Wen-mei Wei, Qiang Shi
, Phys. Chem. Chem. Phys.
, 2015
, 17
, 20296
- Exploration of expanded carbohydrate chemical space to access biological activity using microwave-induced acid condensation of simple sugars. James Andrew London, Sarah Louise Taylor, Igor Barsukov, Alan Cartmell, Edwin Alexander Yates
, RSC Adv.
, 2022
, 12
, 11075
- Successive C1–C2 bond cleavage: the mechanism of vanadium(v)-catalyzed aerobic oxidation of d-glucose to formic acid in aqueous solution. Muge Niu, Yucui Hou, Weize Wu, Shuhang Ren, Ru Yang
, Phys. Chem. Chem. Phys.
, 2018
, 20
, 17942
- The training of bacteria to new carbon sources. Bact. lactis aerogenes and d-arabinose. S. Jackson, C. N. Hinshelwood
, Trans. Faraday Soc.
, 1948
, 44
, 568
- The metal-binding sites of glycose phosphates. Kathrin Gilg, Tobias Mayer, Natascha Ghaschghaie, Peter Klüfers
, Dalton Trans.
, 2009
, 7934
- The adaptation of Bact. lactis aerogenes to glycerol and to various carbohydrates. E. G. Cooke, C. N. Hinshelwood
, Trans. Faraday Soc.
, 1947
, 43
, 733
- Citrobacter werkmanii, a new candidate for the production of 1,3-propanediol: strain selection and carbon source optimization. Veerle E. T. Maervoet, Joeri Beauprez, Sofie L. De Maeseneire, Wim K. Soetaert, Marjan De Mey
, Green Chem.
, 2012
, 14
, 2168
- 247. Synthesis of some derivatives of D- and L-arabinose. J. K. N. Jones, P. W. Kent, M. Stacey
, J. Chem. Soc.
, 1947
, 1341
- Chemical shift changes in the 1H nuclear magnetic resonance spectrum of β-D-arabinose induced by boron(III) oxide. Hisatoshi Asaoka
, J. Chem. Soc., Perkin Trans. 2
, 1983
, 1499
- CCXXX.—The constitution of sucrose. Part II. Evidence contributed by the oxidation of d-arabinose. George McOwan
, J. Chem. Soc.
, 1926
, 129
, 1747