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- Reactions of 5,6-chrysenequinodimethane. D. Cohen, Ian T. Millar, K. E. Richards
, J. Chem. Soc. C
, 1967
, 1499
- Towards mismatched DNA photoprobes and photoreagents: “elbow-shaped” Ru(ii) complexes. Q. Deraedt, L. Marcélis, F. Loiseau, B. Elias
, Inorg. Chem. Front.
, 2017
, 4
, 91
- S 16. Reactions in sunlight of (a) phenanthraquinone, retenequinone, and chrysenequinone with ethylenes; (b) retenequinone and chrysenequinone with aromatic aldehydes; and (c)o-formylbenzoic acid with isopropyl alcohol. Ahmed Mustafa
, J. Chem. Soc.
, 1949
, S83
- Molecular methods for assessment of non-covalent metallodrug–DNA interactions. Andrew Kellett, Zara Molphy, Creina Slator, Vickie McKee, Nicholas P. Farrell
, Chem. Soc. Rev.
, 2019
, 48
, 971
- Polynuclear heterocyclic systems. Part VIII. Synthetic applications of the schmidt reaction. G. M. Badger, J. H. Seidler
, J. Chem. Soc.
, 1954
, 2329
- CCLXXI.—Polycyclic aromatic hydrocarbons. Part V. Preliminary studies in the synthesis of chrysene homologues. James Wilfred Cook, Robert A. E. Galley
, J. Chem. Soc.
, 1931
, 2012
- 594. The retardation of benzaldehyde autoxidation. Part V. The effects of some quinones. J. R. Dunn, William A. Waters
, J. Chem. Soc.
, 1953
, 2993
- Does the metal influence non-covalent binding of complexes to DNA?. Jihan Talib, David G. Harman, Carolyn T. Dillon, Janice Aldrich-Wright, Jennifer L. Beck, Stephen F. Ralph
, Dalton Trans.
, 2009
, 504
- Photochemical formation of water-soluble oxyPAHs, naphthenic acids, and other hydrocarbon oxidation products from Cook Inlet, Alaska crude oil and diesel in simulated seawater spills. Maxwell L. Harsha, Zachary C. Redman, Josh Wesolowski, David C. Podgorski, Patrick L. Tomco
, Environ. Sci.: Adv.
, 2023
, 2
, 447
- 18. Experiments with diazomethane and its derivatives. Part XV. Action of diazomethane on o-quinone monoximes. Alexander Schönberg, William Ibrahim Awad
, J. Chem. Soc.
, 1950
, 72