[2] Wu H., Simmons J.M., Liu Y., Brown C.M., Wang X., Ma S., Peterson V.K., Southon P.D., Kepert C.J., Zhou H., Yildirim T., Zhou W.,
Metal-Organic Frameworks with Exceptionally High Methane Uptake: Where are how is Methane Stored?,
Chem. Eur. J.,
16: 5205-5213 (2010).
[8] Wood C.D., Tan B., Trewin A., Niu H.J., Bradshaw D., Rosseinsky M.J., Khimyak Y.Z., Campbell N.L., Kirk R., Stockel E., Cooper A.I.,
Hydrogen Storage in Microporous Hypercrosslinked Organic Polymer Networks,
Chem. Mater.,
19: 2034-2048 (2007).
[9] Ghanem B.S., Msayib K.J., McKeown N.B., Harris K.D.M., Pan Z., Budd P.M., Butler A., Selbie J., Book D., Walton A.,
A Triptycene-Based Polymer of Intrinsic Microposity That Displays Enhanced Surface Area and Hydrogen Adsorption,
Chem. Commun., 67-69 (2007).
[20] Kondo M., Yoshito mi T., Seki K., Matsuzaka H., Kitagava S.,
Three-Dimensional Framework with Channeling Cavities for Small Molecules: {[M2(4, 4′-bpy)3(NO3)4]·xH2O}n (M = Co, Ni, Zn),
Angew. Chem. Int. Ed.,
36: 1725-1727 (1997).