Laser-induced graphene filters and methods of making and using same

What is claimed is: 1. A method of making a filter comprising LIG, wherein the method comprises the steps of: (a) exposing a first side of a sheet comprising a LIG precursor material to a first laser source, wherein (i) the exposing on the first side results in formation of LIG on the first side of the sheet, (ii) the LIG is derived from the LIG precursor material, and (iii) some of the LIG precursor material on the first side of the sheet is not exposed to the first laser source such that it remains LIG precursor material on the first side of the sheet; and (b) treating the second side of the sheet, wherein (i) the second side of the sheet is on the opposite side of the first side of the sheet, (ii) the step of treating the second side comprises exposing the second side of the sheet to a second laser source to form LIG on the second side of the sheet, (iii) the second laser source is (A) the first laser source or (B) a different laser source than the first laser source, (iv) the LIG on the first side of the sheet and the LIG on the second side of the sheet are adjacent and provide a porosity to the sheet such that the sheet is a LIG filter configured to allow a flow of air through the LIG from the first side of the sheet to the LIG on the second side of the sheet, (v) the LIG precursor material not formed into LIG by the exposing of the first laser source on the first side is a support of the LIG formed on the first side, and (vi) the LIG precursor material not formed into LIG by the exposing of the second laser source on the second side is a support of the LIG formed on the second side. 2. The method of claim 1 , wherein the second laser source is the first laser source. 3. The method of claim 1 , wherein the second laser source is the different laser source than the first laser source. 4. The method of claim 1 , wherein the LIG filter is capable of capturing particles or molecules selected from a group consisting of viruses, airborne microorganisms, byproducts of microorganisms, microorganism-associated toxins, viruses, virus capsids, droplets of virus capsids, and combinations thereof. 5. The method of claim 1 , wherein the LIG precursor material is selected from a group consisting of polymers, carbon-based precursors that comprise amorphous carbon, and compounds that are precursors to porous amorphous carbons. 6. The method of claim 1 , wherein the LIG precursor material is a polymer. 7. The method of claim 1 , wherein the LIG precursor material has a first pattern on the first side during the step of exposing the first side of the sheet comprising the LIG precursor material to the first laser source. 8. The method of claim 1 , wherein the LIG filter is capable of generating heat when a voltage is applied across the LIG filter. 9. The method of claim 8 , wherein the heat is capable of killing or decomposing captured particles selected from a group consisting of viruses, airborne microorganisms, byproducts of microorganisms, microorganism-associated toxins, viruses, virus capsids, droplets of virus capsids, and combinations thereof. 10. A method of making a filter comprising LIG, wherein the method comprises the steps of: (a) exposing a first side of a sheet comprising a LIG precursor material to a first laser source, wherein (i) the exposing on the first side results in formation of LIG on the first side of the sheet, and (ii) the LIG is derived from the LIG precursor material; (b) treating the second side of the sheet, wherein (i) the second side of the sheet is on the opposite side of the first side of the sheet, (ii) the LIG on the first side of the sheet and the step of treating on the second side provide a porosity to the sheet such that the sheet is configured to allow a flow of air through the LIG from the first side to the second side, (iii) at least some of the LIG precursor material on the first side of the sheet is not formed into LIG and is operable to support the LIG formed on the first side, and (iv) the LIG filter is capable of capturing particles or molecules selected from a group consisting of viruses, airborne microorganisms, byproducts of microorganisms, microorganism-associated toxins, viruses, virus capsids, droplets of virus capsids, and combinations thereof; and (c) decomposing the captured particles via Joule heating. 11. A method of making a filter comprising LIG, wherein the method comprises the steps of: (a) exposing a first side of a sheet comprising a LIG precursor material to a first laser source, wherein (i) the exposing on the first side results in formation of LIG on the first side of the sheet, and (ii) the LIG is derived from the LIG precursor material; (b) treating the second side of the sheet, wherein (i) the second side of the sheet is on the opposite side of the first side of the sheet, ii) the LIG on the first side of the sheet and the step of treating on the second side provide a porosity to the sheet such that the sheet is configured to allow a flow of air through the LIG from the first side to the second side, (iii) at least some of the LIG precursor material on the first side of the sheet is not formed into LIG and is operable to support the LIG formed on the first side, (iv) the LIG precursor material has a first pattern on the first side during the step of exposing the first side of the sheet comprising the LIG precursor material to the first laser source, (v) the step of treating the second side comprises exposing the second side of the sheet to a second laser source to form LIG on the second side of the sheet, (vi) the second laser source is the same or a different laser source than the first laser source, (vii) the LIG precursor material has a second pattern on the second side during the step of exposing the second side of the sheet to the second laser source, (viii) the first pattern is offset from the second pattern. 12. The method of claim 11 , wherein the first pattern and the second pattern provide a 3-dimensional lattice for reinforcement and geometrical strengthening. 13. A LIG filter comprising: (a) LIG, wherein (i) the LIG is on a first side of the LIG filter and is on a second side of the LIG filter, wherein the LIG on the first side of the LIG filter is adjacent the LIG on the second side of the LIG filter, and (ii) the LIG filter has a porosity such that the LIG filter is configured to allow a flow of air through the LIG on the first side of the LIG filter to the LIG on the second side of the LIG filter; and (b) a LIG precursor material is on the first side of the LIG filter and is on the second side of the LIG filter, wherein (i) the LIG precursor material on the first side of the LIG filter is a support of the LIG on the first side of the LIG filter, (ii) the LIG precursor material on the second side of the LIG filter is a support of the LIG on the second side of the LIG filter, and (iii) the LIG filter is capable of capturing particles selected from a group consisting of virus particles, airborne microorganisms, byproducts of the microorganisms, microorganism-associated toxins, and combinations thereof. 14. The LIG filter of claim 13 , wherein the LIG filter is capable of generating heat when a voltage is applied across the filter. 15. The LIG filter of claim 14 , wherein the heat is capable of killing or decomposing captured particles selected from a group consisting of viruses, airborne microorganisms, byproducts of microorganisms, microorganism-associated toxins, viruses, virus capsids, droplets of virus capsids, and combinations thereof. 16. The LIG filter of claim 13