Two-dimensional polymers comprised of a combination of stiff and compliant molecular units

We claim: 1. A two-dimensional (2D) polymer comprising: a regular, repeating, 2D covalent bond network of (i) a plurality of identical nodes in two dimensions, each node comprised of one or more carbon-containing cyclic nodal units, which are joined by (ii) three or more identical linear bridge units, wherein the bridge units comprise: (a) polyethylene; (b) amide or polyamide comprising a nitrogen atom which directly bonds to a cyclic ring of a carbon-containing cyclic nodal unit; (c) thiazole or polythiazole, or imidazole or polyimidazole; (d) hydroquinone-diimidazopyridine or poly(hydroquinone-diimidazopyridine); (e) a monomer or polymer comprising 4-hydroxybenzoic acid and/or 6-hydroxy-2-naphthoic acid; (f) a monomer or polymer comprising one or more cyclic units and one or more esters; or (g) amic or polyamic acid. 2. The 2D polymer of claim 1 , wherein the nodal units comprise benzene, the bridge units comprise polyethylene, and the 2D polymer has the chemical formula I, wherein n is an integer ≥2 and ˜˜ represent imaginary cut-lines in the bridge units showing where they extend to other nodal units in the regular, repeating 2D bond network: 3. The 2D polymer of claim 1 , wherein the nodal unit comprises benzene, the bridge units comprise amide or polyamide, alkyl amide or polyamide, or aromatic amide or polyamide, and the 2D polymer has the formula II, III, IV or V, wherein n is an integer ≥1 and ˜˜ represent imaginary cut-lines in the bridge units showing where they extend to other nodal units in the regular, repeating 2D bond network: 4. The 2D polymer of claim 1 , wherein the nodal units comprise benzene, the bridge units comprise thiazole or polythiazole, or imidazole or polyimidazole, and the 2D polymer has the formula X or XI, wherein n is an integer ≥1 and ˜˜ represent imaginary cut-lines in the bridge units showing where they extend to other nodal units in the regular, repeating 2D bond network: 5. The 2D polymer of claim 1 , wherein the nodal units comprise benzene, the bridge units comprise hydroquinone-diimidazopyridine or poly(hydroquinone-diimidazopyridine), and the 2D polymer has the formula XII, wherein n is an integer ≥1 and ˜˜ represent imaginary cut-lines in the bridge units showing where they extend to other nodal units in the regular, repeating 2D bond network: 6. The 2D polymer of claim 1 , wherein the nodal units comprise benzene, the bridge units comprise a monomer or polymer comprising 4-hydroxybenzoic acid and/or 6-hydroxy-2-naphthoic acid, and the 2D polymer has the chemical formula XIII, XIV or XV, wherein x, y and n are each an integer ≥1 and ˜˜ represent imaginary cut-lines in the bridge units showing where they extend to other nodal units in the regular, repeating 2D bond network: 7. The 2D polymer of claim 1 , wherein the nodal units comprise benzene, the bridge units comprise a monomer or polymer comprising one or more cyclic units and one or more estersr, and the 2D polymer has the formula XVI or XVII, wherein n is an integer ≥1 and ˜˜ represent imaginary cut-lines in the bridge units showing where they extend to other nodal units in the regular, repeating 2D bond network: 8. The 2D polymer of claim 1 , wherein the nodal units comprise benzene, the bridge units comprise amic acid and the 2D polymer has the formula XX or XXI, wherein ˜˜ represent imaginary cut-lines in the bridge units showing where they extend to other nodal units in the regular, repeating 2D bond network: 9. A method of producing the 2D polymer of claim 1 , comprising: providing a first monomer comprising three or more reactive groups per molecule to function as the nodal units; providing a second monomer comprising two reactive groups per molecule to function as the bridge units; and reacting the first monomer with the second monomer to form the regular, repeating, two-dimensional 2D bond network. 10. The method of claim 9 , further comprising: reacting a third monomer and a fourth monomer so as to produce the second monomer. 11. The method of claim 9 , further comprising: forming a bridge unit comprising amic or polyamic acid by 2D polymerization. 12. A 2D two-dimensional (2D) polymer comprising: a regular, repeating, 2D covalent bond network of (i) a plurality of identical nodes in two dimensions, each node comprised of one or more carbon-containing cyclic nodal units, which are joined by (ii) six identical linear bridge units, wherein the nodal units comprise benzene, the bridge units comprise acetylene or polyacetylene, and the 2D polymer has the formula XVIII or XIX, wherein n is an integer ≥1 and ˜˜ represent imaginary cut-lines in the bridge units showing where they extend to other nodal units in a regular, repeating 2D bond network: 13. A two-dimensional (2D) polymer comprising: a regular, repeating, 2D covalent bond network of (i) a plurality of identical nodes in two dimensions, each node comprised of one or more carbon-containing cyclic nodal units, which are joined by (ii) three identical linear bridge units, wherein the nodal units comprise benzene, the bridge units comprise imide and the 2D polymer has the formula XXII or XXIII, wherein ˜˜ represent imaginary cut-lines in the bridge units showing where they extend to other nodal units in the regular, repeating 2D bond network: 14. A two-dimensional (2D) polymer comprising: a regular, repeating, 2D covalent bond network of (i) a plurality of identical nodes in two dimensions, each node comprised of one or more carbon-containing cyclic nodal units, which are joined by (ii) four or more identical linear bridge units, wherein the bridge units comprise amide or polyamide. 15. A two-dimensional (2D) polymer comprising: a regular, repeating, 2D covalent bond network of (i) a plurality of identical nodes in two dimensions, each node comprised of one or more carbon-containing cyclic nodal units, which are joined by (ii) six identical linear bridge units, wherein the nodal units comprise benzene, the bridge units comprise ethylene or polyethylene, and the 2D polymer has the chemical formula I, wherein n is an integer ≥1 and ˜˜ represent imaginary cut-lines in the bridge units showing where they extend to other nodal units in the regular, repeating 2D bond network: 16. A two-dimensional (2D) polymer comprising: a regular, repeating, 2D covalent bond network of (i) a plurality of identical nodes in two dimensions, each node comprised of one or more carbon-containing cyclic nodal units, which are joined by (ii) three or more identical lin