水相室溫磷光碳點進展

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中圖分類號：0482.31 文獻標識碼：ADOI：10.37188/CJL.20240245 CSTR：32170.14.CJL.20240245

Progressin Water-soluble Room-temperature Phosphorescent Carbon Dots

ZHANG Sifan1，LIANG Yachuan1*，LIU Kaikai2*，SHAN Chongxin2

（1.SchoolofElectronicsand Information，Zhengzhou UniversityofLight Industry，Zhengzhou 45oo02，China; 2.HenanKeyLaboratoryofDiamondOptoelectronicMaterialandDevices，holofPhysicsandLaboratoryofZhongyuanLight， ZhengzhouUniversity，Zhengzhou 45ooo1，China） *Corresponding Authors，E-mail：liangyc@zzuli.edu.cn；liukaikai@zzu.edu.cn

Abstract：Room-temperature phosphorescence（RTP）materials have garnered significant attention due to their prolonged luminescent lifetime，rendering themparticularlysuitable fornon-instantaneous excitationapplications. Carbon dots （CDs），as an emerging classof RTP materials，have sparked widespread interest among researchers owing totheirfacile preparation，lowtoxicity，cost-effectiveness，excellentopticalstability，andtunableopticalproperties.In this review，wecomprehensively summarizethe pivotal advancements achieved in RTPCDs materials.Initially，we delveinto the luminescence mechanismof RTP，elucidating theenergylevel structureunderlying phosphorescence emision.Subsequently，we elaborate on the synthetic strategies and modulation methods for both solidphase and water-solubleRTPCDs.Following this，we highlight their potential applications in information encryption，sensing，lightingand display，as well as biomedicine.Lastly，we discuss the primary challnges currently faced by water-soluble RTP CDs and offer insights into future development opportunities.

Key words：carbon dots；room temperature phosphorescence；phosphorescence mechanism；synthesis method; applications

1引言

余輝材料作為一種具有長壽命發(fā)光的光學材料，涵蓋了室溫磷光（Room temperature phospho-rescence，RTP）、持續(xù)發(fā)光和熱激活延遲熒光材料。（剩余25103字）