Several potentially bis(alkylating) bis(quinones) (3-5) and 1,4- and 1,3-bis(alkylating) monoquinones (6-13) belonging to general structure 2,2'-ethylenebis[5-[(leaving group)methyl]-1,4-benzoquinone] (3-5) and 2,5- and 2,6-bis[(leaving group)methyl]-1,4-benzoquinone water-soluble and -insoluble classes were prepared by oxidative demethylation of the corresponding tetramethoxydiphenylethanes (17-19) and dimethoxybenzenes (24, 27, 36-39), respectively. Methods employed for the preparation of tetramethoxydiphenylethane intermediates involved (1) arylmethyl bromide coupling and (2) catalytic hydrogenation of stilbene intermediates derived via Wittig reaction of (arylmethyl)phosphonium salts with aryl aldehydes. However, in biological investigations using a subcutaneous B16 (hypoxic) melanoma tumor in BDF1 hybrid mice with cyclophosphamide as positive control the most interesting series of structurally related analogues were the potentially monoalkylating monoquinones of the 2-[(leaving group)methyl]-1,4-benzoquinone type (i.e., 14 and 15) having water-insoluble (acetoxy) and water-solubilizing (succinate) groups. Serial measurements of tumor size, and evaluation of increased life span, in response to drug treatment also revealed potentially 1,4-bis(alkylating) (bromomethyl)-1,4-quinone 7 and 1,3-bis(alkylating) (hydroxymethyl)-1,4-quinone 10 to have variable activity, but none of the potentially bis(alkylating) bis(quinones) showed antitumor properties in this model.