By loading a microemulsion containing both sensitizer and emitter into porous sodium polyacrylate (PAAS), a water-absorbent resin (WAR) upconversion (UC) material was fabricated for photocatalysis applications. This WAR UC material showed a highly efficient UC process in the ambient environment owing to its liquid/solid encapsulation structure. In the application measurement, the UC emission from WAR UC materials can excite the catalyst Pt/WO _(3) to produce hydroxyl radicals, yielding 7-hydroxycoumarin by reacting with coumarin. In another case, since the band gap of ZnCdS matches the energy of UC emission, hole–electron pairs can be obtained under the UC irradiation and capture electrons from rhodamine B, leading to the degradation of rhodamine B. The maximum of the photocatalysis efficiency can be up to 97%. This work solves the oxygen quenching problem by preparing a triplet–triplet annihilation upconversion (TTA-UC) O/W microemulsion and loading it into PAAS WAR, and opens a new avenue to solid-state devices for TTA-UC. The applications of photocatalytic synthesis and photocatalytic degradation lay a foundation for future practical applications for TTA-UC materials.
展开▼
机译:通过将同时包含增敏剂和发射剂的微乳液装入多孔聚丙烯酸钠(PAAS)中,制得了吸水性树脂(WAR)上转换(UC)材料,用于光催化应用。由于其液体/固体封装结构,这种WAR UC材料在周围环境中显示出高效的UC工艺。在应用测量中,WAR UC材料的UC发射可激发催化剂Pt / WO _(3)产生羟基,通过与香豆素反应生成7-羟基香豆素。在另一种情况下,由于ZnCdS的带隙与UC的发射能量匹配,因此在UC辐射下可以获得空穴-电子对,并捕获了若丹明B中的电子,从而导致若丹明B的降解。光催化效率的最大值可以高达97%。这项工作通过制备三重态-三重态an灭上转换(TTA-UC)O / W微乳液并将其装入PAAS WAR中来解决了氧猝灭问题,并为TTA-UC固态设备开辟了一条新途径。光催化合成和光催化降解的应用为TTA-UC材料的未来实际应用奠定了基础。
展开▼
