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25T.-M. Shang, Q.-F. Zhou and J.-H. Sun.
1,10-Phenanthrolin-1-ium pamoate N,N-dimethylformamide solvate, Acta Cryst. (2007). E63, o506-o508Â Â Â Â A. C. Blackburn, A. J. Dobson and R. E. Gerkin.
Bis(pyridinium) Pamoate, Acta Cryst. (1996). C52, 1269-1272Â Â Â Â Feng Luo, Yu-Ting Yang, Yun-Xia Che and Ji-Min Zheng.
An unusual metal–organic framework showing both rotaxane- and cantenane-like motifs, CrystEngComm, 2008, 10, 981. Matthew L. Tomlinson, Martin Rejzek, Mark Fidock, Robert A. Field and Grant N. Wheeler.
Chemical genomics identifies compounds affecting Xenopus laevispigment cell development, Mol. Biosyst., 2009, 5, 376. F. Christopher Pigge.
Losing control? “Design” of crystalline organic and metal–organic networks using conformationally flexible building blocks, CrystEngComm, 2011, 13, 1733. Helene Wahl, Delia A. Haynes and Tanya le Roex.
Solvate formation in lutidinium pamoate salts: a systematic study, CrystEngComm, 2011, 13, 2227. Suna Wang, Yanqiang Peng, Xilian Wei, Qingfu Zhang, Daqi Wang, Jianmin Dou, Dacheng Li and Junfeng Bai.
Temperature-dependent supramolecular isomerism in three zinc coordination polymers with pamoic acid and 1,4-bis(imidazol-1-ylmethyl)-benzene, CrystEngComm, 2011, 13, 5313. Thimm Dominik, Funke Mario, Meyer Anne, Müller Christa E..
6-Bromo-8-(4-[3H]methoxybenzamido)-4-oxo-4H-chromene-2-carboxylic Acid: A Powerful Tool for Studying Orphan G Protein-Coupled Receptor GPR35, Journal of Medicinal Chemistry, 2013 Hydrothermal synthesis of tin-doped indium oxide nanoparticles using pamoic acid as an organic additive and their photoluminescence properties, Journal of Materials Science: Materials in Electronics Preparation of monodispersed carboxylate-functionalized gold nanoparticles using pamoic acid as a reducing and capping reagent, Gold Bulletin