Intricate mixed-linker structures

What is claimed is: 1. A method of synthesizing an intricate mixed-linker structure, comprising: (a) selecting a merged-net to target in the synthesis of the intricate mixed-linker structure, and a first edge-transitive net and second edge-transitive net capable of combining to afford the targeted merged-net, wherein the first and second edge-transitive nets share a common signature net; (b) determining a connectivity and geometrical configuration of each node of the merged-net, wherein the nodes of the merged-net comprise a merged node and unmerged nodes, wherein the unmerged nodes include a first unmerged node and second unmerged node; (c) selecting a MBB with the same connectivity and geometrical configuration as the merged node and having two sets of points of extension, wherein each set of points of extension is capable of linking to distinct MBBs; (d) selecting a first MBB with the same connectivity and geometrical configuration as the first unmerged node; (e) inputting the length of the selected first MBB into a merged-net equation to calculate the appropriate length of a complementary MBB; (f) selecting a second MBB with the same connectivity and geometrical configuration as the second unmerged node, and the same length as the complementary MBB; and (g) reacting precursors of the MBB, first MBB, and second MBB to synthesize an intricate mixed-linker structure with the targeted merged-net. 2. The method of claim 1 , wherein the merged-net is a minimal edge-transitive net with [22] transitivity or [32] transitivity. 3. The method of claim 1 , wherein the merged-net is selected from: an aca net, acb net, ach net, anl net, ast-d net, bob net, bof net, bsc net, bsl net, bsp net, buo net, bup net, bus net, crd net, crh net, crn net, esa net, est net, cti net, dif net, epr net, fif net, flh net, flp net, flr net, fis net, fwb net, fwe net, fwf net, fwo net, fwp net, fwt net, gal net, gas net, hxd net, hxn net, hxp net, hxs net, ias net, ifc net, ifl net, ifr net, ifs net, itb net, itp net, its net, lvs net, lys net, mga net, mgh net, mgi net, mgr net, mgs net, nbf net, nbo-x-d net, nic net, nku net, nso net, occ net, ocf net, och net, ocp net, ocs net, pco net, pcp net, pct net, phq net, pht net, psb net, pyi net, pyp net, pyu net, pyy net, qtq net, reb net, ren net, reo net-d net, rep net, ret net, rhb net, rhe net, rhd net, rhf net, rht-x net, see net, sep net, sdr net, ses net, sha net, she net, shn net, sho net, shs net, sht net, spc net, spd net, sph net, sqd net, sqv net, ssl net, ssr net, sts net, sub net, suc net, sup net, tam net, tbe net, tbf net, tbn net, tdi net, tec net, tef net, ter net, the net, tht net, toh net, ton net, top net, ttb net, tte net, tth net, tti net, ttl net, ttr net, tts net, twb net, twh net, twn net, two net, tws net, urk net, urr net, wzz net, xam net, xau net, xaz net, xbk net, xbn net, xbo net, xbp net, or combinations thereof. 4. The method of claim 1 , wherein each of the first edge-transitive net and second edge-transitive net is independently selected from edge-transitive nets with [11] transitivity or [21] transitivity. 5. The method of claim 4 , wherein the edge-transitive nets with [11] transitivity are selected from a hxg net, lcw net, hxl net, kgm net, heb net, dia net, crs net, nbo net, sod net, rhr net, acs net, sql net, lvt net, bcu net, peu net, feu net, reo net, qtz net, srs net, lev net, ley net, bcs net, les net, ana net, thp net, or combinations thereof. 6. The method of claim 4 , wherein the edge-transitive nets with [21] transitivity are selected from a shp net, alb net, stp net, mge net, spn net, toc net, nia net, ssa net, esq net, ith net, twf net, ocu net, she net, pto net, pth net, ssb net, pts net, soc net, ttt net, rht net, bor net, the net, scu net, sqc net, flu net, pyr net, ftw net, tbo net, ifi net, ssc net, iac net, gar net, ctn net, or combinations thereof. 7. The method of claim 1 , wherein the common signature net is selected from a kgm net, ana net, fcu net, reo net, bcs net, pcu net, crs net, nbo net, thp net, lcw net, lcs net, sod net, hxg net, lev net, srs net, bcu net, icy net, dia net, acs net, qtz net, fcu net, o-p net, rhr net, hxl net, lvt net, or thp net. 8. The method of claim 1 , wherein the first MBB and second MBB are different. 9. The method of claim 1 , wherein each of the MBB, first MBB, and second MBB is independently selected from an organic MBB or inorganic MBB. 10. The method of claim 1 , wherein each of the MBB, first MBB, and second MBB is independently selected from a first polytopic ligand, second polytopic ligand, or metal component. 11. The method of claim 1 , wherein at least one of the MBB, first MBB, and second MBB is an inorganic MBB comprising a cluster of metals or metal ions. 12. The method of claim 1 , wherein the first MBB associates with at least one of the two sets of points of extension to afford the first edge-transitive net. 13. The method of claim 1 , wherein the second MBB associates with at least one of the two sets of points of extension to afford the second edge-transitive net. 14. The method of claim 1 , wherein the merged-net equation is represented by formula (1): ∑ S BB ⁢ 1 ∑ S BB ⁢ 2 = C R ( 1 ) where C R is a ratio constant for a merged-net, S BB1 is the size of all building blocks for the first edge-transitive net, and S BB2 is the size of all building blocks for the second edge-transitive net. 15. The method of claim 1 , wherein the merged-net equation is represented by formula (2) or (3): S O ⁢ 1 + ∑ S I ⁢ 1 S O ⁢ 2 +