Self-healing metal-ligand polymeric materials

1 . A self-healing polymeric material comprising: a polymer network comprising poly(vinyl alcohol) (PVA) that defines one or more ligands having a transition metal ion coordination site; and a transition metal ion distributed in the polymer network and capable of interacting with the transition metal ion coordination site via a reversible coordination bond, wherein the polymer network is capable of self-healing a mechanical crack or cut in less than or equal to about 30 minutes at ambient conditions. 2 . The self-healing polymeric material of claim 1 , wherein the transition metal ion is a zinc ion (Zn 2+ ). 3 . The self-healing polymeric material of claim 1 , wherein the polymer network is capable of self-healing a mechanical crack or cut in less than or equal to about 1 minute at ambient conditions. 4 . The self-healing polymeric material of claim 1 , wherein the polymer network further comprises an additive selected from the group consisting of: a plasticizer, a crosslinker, a nanoparticle, and combinations thereof. 5 . The self-healing polymeric material of claim 1 , wherein the polymer network is a hydrogel. 6 . The self-healing polymeric material of claim 1 , wherein a ratio of moles of PVA (N PVA ) to moles of zinc ions (N zn ) is greater than or equal to about 20:1 to less than or equal to about 10:5. 7 . The self-healing polymeric material of claim 1 , further comprising water, a first complex of the transition metal ion and the transition metal ion coordination site, and a second complex of the transition metal ion and water, wherein a ratio of the first complex to the second complex is greater than or equal to about 1:1 and less than or equal to about 5:1. 8 . The self-healing polymeric material of claim 1 capable of an elongation under strain of greater than or equal to about 100% after self-healing of the mechanical crack or cut. 9 . The self-healing polymeric material of claim 1 , having a transmissivity of greater than or equal to about 70% for electromagnetic radiation wavelengths of greater than or equal to about 380 nm to less than or equal to about 780 nm. 10 . The self-healing polymeric material of claim 1 , having a sheet resistance of less than or equal to about 10 MΩ/square. 11 . A self-healing pressure sensitive adhesive formed of the self-healing polymeric material of claim 1 , wherein the self-healing pressure sensitive adhesive is capable of adhering to at least one substrate selected from the group consisting of: glass, plastic, metal, fabric, and biological tissue. 12 . The self-healing pressure sensitive adhesive of claim 11 having a bond strength with the at least one substrate of greater than or equal to about 0.05 MPa without any preload and 0.15 MPa with a preload level of 1.5 MPa. 13 . The self-healing pressure sensitive adhesive of claim 11 being water-resistant and solvent-resistant. 14 . The self-healing pressure sensitive adhesive of claim 11 having a maximum shear strength of greater than or equal to about 100 kPa. 15 . A device incorporating the self-healing polymeric material of claim 1 , wherein the device is selected from the group consisting of: an electronic device, a display, a wearable device, a vehicle, a robot, manufacturing equipment, construction equipment, a medical device, packaging, a toy, a sensor, and an energy conversion or storage device. 16 . A self-healing polymeric material comprising: a polymer network comprising one or more ligands having a transition metal ion coordination site; and a transition metal ion distributed in the polymer network and capable of interacting with the transition metal ion coordination site via a coordination bond and satisfying the following conditions: E a = a · f + b ; and a = ( ∂ E a ∂ f ) < 0 where E a is an activation energy, f is a molar ratio of number of moles of transition metal ion to moles of ligands, a is a slope of activation energy versus the molar ratio that ranges from greater than or equal to about 1 to less than or equal to about 5, b is a y-intercept of activation energy versus the molar ratio of metal-ligand and, wherein the polymer network is capable of self-healing a mechanical crack or cut in less than or equal to about 30 minutes at ambient conditions. 17 . The self-healing polymeric material of claim 16 having a Young's modulus (E) of greater than or equal to about 0.01 kPa to less than or equal to 100 kPa. 18 . The self-healing polymeric material of claim 16 , wherein the self-healing polymeric material is cross-linked and has a Young's modulus of greater than or equal to about 1 kPa to less than or equal to 100 MPa. 19 . A self-healing pressure sensitive adhesive formed of the self-healing polymeric material of claim 16 , wherein a total adhesive strength (GA) of the self-healing pressure sensitive adhesive is greater than or equal to about 0.1 MPa to less than or equal to about 5 MPa. 20 . The self-healing pressure sensitive adhesive of claim 16 having ionomeric properties represented by the following: R −1 =R 0 −1 (f−f C ) r , where R −1 is an inverse of measured electrical resistance, R −1 0 is a maximum value of an inverse of electrical resistance for self-healing adhesive, f is a ratio of moles of transition metal ion to moles of ligands of the polymer network, f c is a percolation threshold and is greater than 0 and less than or equal to about 0.1, and r is a critical exponent that is greater than or equal to about 1 to less than or equal to about 2. 21 . A method of making a self-healing polymeric material, the method comprising: mixing a polymer precursor and a precursor comprising a transition metal together to form a mixture of a polymer having one or more ligands with at least one transition metal ion coordination site and a transition metal ion distributed in the polymer; freezing the mixture; and thawing the mixture, so as to form a self-healing material comprising a polymer network having the transition metal ion distributed therein, wherein the at least one transition metal ion coordination site on one or more ligands of the polymer network reacts with the transition metal ion to form a reversible coordination bond, wherein the self-healing material is capable of self-healing a mechanical crack or cut in less than or equal to about 30 minutes at ambient conditions in an absence of external stimuli. 22 . The method of claim 21 , wherein at least three cycles of the freezing and thawing are conducted. 23 . The method of claim 21