Polycrystalline, aluminosilicate ceramic filaments, fibers, and nonwoven mats, and methods of making and using the same

1 . A nonwoven article comprising a two-dimensional nonwoven structure or a three-dimensional nonwoven structure comprising a plurality of discontinuous polycrystalline, aluminosilicate ceramic fibers that are cohesively bonded together by a fired precursor inorganic binder, wherein each cohesively bonded discontinuous fiber is bonded to one or a plurality of other said discontinuous fibers at one or more locations along its length. 2 . The nonwoven article as claimed in claim 1 , wherein said two-dimensional nonwoven structure has a longest major surface dimension and a shortest major surface dimension, and said cohesively bonded discontinuous fibers have a length that is less than the longest or shortest major surface dimension of the two-dimensional nonwoven structure. 3 . The nonwoven article as claimed in claim 1 , wherein said two-dimensional nonwoven structure has a longest major surface dimension and a shortest major surface dimension, and said cohesively bonded discontinuous fibers have a length that is greater than the thickness dimension of the two-dimensional nonwoven structure and less than the longest or shortest major surface dimension of the two-dimensional nonwoven structure. 4 . The nonwoven article as claimed in claim 1 , wherein said three-dimensional nonwoven structure comprises at least one or a plurality of three-dimensional molded features, with each three-dimensional molded feature having a shortest major surface dimension, and each said three-dimensional molded feature is formed with said cohesively bonded discontinuous fibers having a length that is less than or equal to the shortest major surface dimension of said three-dimensional molded feature. 5 . The nonwoven article as claimed in claim 1 , wherein said cohesively bonded discontinuous fibers have a length that is greater than the thickness dimension of the three-dimensional nonwoven structure. 6 . The nonwoven article as claimed in claim 1 , wherein each of the plurality of polycrystalline, aluminosilicate ceramic fibers exhibits a diameter of at least 3 micrometers as determined using the Filament Diameter Measurement Procedure with electron microscopy. 7 . The nonwoven article as claimed in claim 1 , wherein the article is a two-dimensional nonwoven structure, and each of the plurality of polycrystalline, aluminosilicate ceramic fibers has a length equal to the longest or shortest major surface dimension of the two-dimensional nonwoven structure or a length in between those dimensions. 8 . The nonwoven article as claimed in claim 1 , having a bulk density of from 0.05 to 0.3 g/cm 3 . 9 . The nonwoven article as claimed in claim 1 , having a thickness of at least 0.5 mm. 10 . The nonwoven article as claimed in claim 1 , having a basis weight of at least 15 gsm. 11 . The nonwoven article as claimed in claim 1 , further comprising an inorganic binder to bond together the plurality of polycrystalline, aluminosilicate ceramic fibers, wherein the inorganic binder comprises silica, alumina, zirconia, kaolin clay, bentonite clay, silicate, micaceous particles, precursors thereof, and any combinations thereof. 12 . The nonwoven article as claimed in claim 1 , wherein the article is selected from the group consisting of a filtration article, a thermal insulation article, an acoustic insulation article, a fire protection article, a mounting mat, a gasket, a catalyst support, an abrasive material or article, and combinations thereof. 13 . A pollution control device comprising the nonwoven article as claimed in claim 1 . 14 . The pollution control device as claimed in claim 13 , in combination with a motor vehicle exhaust system of a motor vehicle. 15 . An electric vehicle battery module comprising the nonwoven article as claimed in claim 1 . 16 . A method of making a nonwoven article as claimed in claim 1 , said method comprising: flowing an aqueous ceramic precursor sol through a plurality of orifices to produce a plurality of substantially continuous or continuous filaments, wherein the aqueous ceramic precursor sol comprises at least one of alumina particles or silica particles dispersed in water, and further wherein the aqueous ceramic precursor sol further comprises at least one of a hydrolysable aluminum-containing compound or a hydrolyazable silicon-containing compound; removing at least a portion of the water from the plurality of substantially continuous or continuous filaments to at least partially dry the plurality of substantially continuous or continuous filaments; passing the at least partially dried filaments through an attenuator to draw the filaments to a desired diameter; and collecting the at least partially dried filaments as a nonwoven web on a collector surface. 17 . The method as claimed in claim 16 , further comprising directing a stream of gas proximate the plurality of substantially continuous or continuous filaments to at least partially dry the plurality of substantially continuous or continuous filaments, optionally wherein the stream of gas is heated. 18 . The method as claimed in claim 16 , wherein the aqueous ceramic precursor sol comprises aluminum chlorohydrate and silica. 19 . The method as claimed in claim 16 , further comprising converting the nonwoven web into a nonwoven mat, before heating the filaments of the nonwoven web at a temperature and for a time sufficient to convert the at least partially dried filaments to polycrystalline, aluminosilicate ceramic filaments having a desired mullite content. 20 . The method as claimed in claim 16 , further comprising heating the nonwoven web at a temperature and for a time sufficient to convert the nonwoven web to a loose/bulk, layered, cohesive, and/or bonded nonwoven web comprised of a plurality of the discontinuous polycrystalline, aluminosilicate ceramic filaments having an average mullite percent of at least 45 wt. %.