Wavelength converters and methods for making the same

What is claimed is: 1 . A single layer wavelength converter, comprising: a single layer of a polymeric matrix material comprising a first region, a second region, and first and second surfaces; quantum dot particles within said single layer of polymeric matrix material; phosphor particles within said single layer of polymeric matrix material; and wherein a distribution of said quantum dot particles and said phosphor particles in said polymeric matrix material is such that said first region contains a higher concentration of said quantum dot particles than said second region, and said second region contains a higher concentration of phosphor particles than said first region. 2 . The single layer wavelength converter of claim 1 , wherein said polymeric matrix material further comprises an intermediate region between said first and second regions, wherein: the first region is proximate the first surface; the second region is proximate the second surface; the concentration of said quantum dot particles within said intermediate region gradually decreases with increasing distance from said first surface; and the concentration of said phosphor particles in said intermediate region gradually decreases with increasing distance from said second surface. 3 . The single layer wavelength converter of claim 1 , wherein the polymeric matrix material further comprises an intermediate region between said first and second regions, wherein the intermediate region contains substantially no quantum dot particles. 4 . The single layer wavelength converter of claim 3 , wherein said intermediate region contains substantially no phosphor particles. 5 . A light emitting diode package, comprising: a light emitting diode, said light emitting diode configured to emit primary light in a first wavelength range from an emitting surface thereof; a single layer wavelength converter disposed over said light emitting diode, said single layer wavelength converter comprising: a single layer of a polymeric matrix material comprising a first region, a second region, and first and second surfaces; quantum dot particles within said polymeric matrix material; and phosphor particles within said polymeric matrix material; wherein said phosphor particles convert at least a portion of said primary light to secondary light; said quantum dot particles convert at least a portion of at least one of said primary light and said secondary light to tertiary light that is different from said secondary light; and a distribution of said quantum dot particles and said phosphor particles in said polymeric matrix material is such that said first region contains a relatively higher concentration of said quantum dot particles than said second region, and said second region contains a relatively higher concentration of phosphor particles than said first region. 6 . The light emitting diode package of claim 5 , wherein said polymeric matrix material further comprises an intermediate region between said first and second regions, wherein: the first region is proximate the first surface; the second region is proximate the second surface; the concentration of said quantum dot particles within said intermediate region gradually decreases with increasing distance from said first surface; and the concentration of said phosphor particles in said intermediate region gradually decreases with increasing distance from said second surface. 7 . The light emitting diode package of claim 5 , wherein the polymeric matrix material further comprises an intermediate region between said first and second regions, wherein the intermediate region contains substantially no quantum dot particles. 8 . The light emitting diode package of claim 7 , wherein said intermediate region contains substantially no phosphor particles.