Functionally graded materials (FGMs) are compositionally gradient materials. They can achieve the controlled distribution of the desired characteristics within the same bulk material. We describe a functionally graded (FG) metal-phosphor adapting the concept of the FGM; copper (Cu) is selected as a metal and Cu- and Cl-doped ZnS (ZnS:Cu,CI) is selected as a phosphor and FG [Cu]-[ZnS:Cu,CI] is fabricated by a very simple powder process. The FG [Cu]-[ZnS:Cu,CI] reveals a dual-structured functional material composed of dense Cu and porous ZnS:Cu,CI, which is completely combined through six graded mediating layers. The photoluminescence (PL) of FG [Cu]-[ZnS:Cu,CI] is insensitive to temperature change. FG [Cu]-[ZnS:Cu,CI] also exhibits diode characteristics and photo reactivity for 365 nm-UV light. Our FG metal-phosphor concept can pave the way to simplified manufacturing of low-cost and can be applied to various electronic devices.
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