首页|期刊导航|硅酸盐学报|掺铒锆钛酸铅镧反铁电薄膜的反常电控光致发光效应

掺铒锆钛酸铅镧反铁电薄膜的反常电控光致发光效应OA

Anomalous Electric-Field-Modulation of Photoluminescence in Er3+-Doped Antiferroelectric Pb0.98La0.02Zr0.95Ti0.05O3 Thin Films

中文摘要英文摘要

光致发光效应的电场调控可以用于光信息存储与通信等领域.如何在薄膜材料中实现光致发光强度的巨幅调控至关重要.以铒离子(Er3+)掺杂的锆钛酸铅镧(Pb0.98La0.02Zr0.95Ti0.05O3,PLZT-Er)反铁电薄膜为对象,深入分析其电控光致发光效应.在外加电场为 830 kV·cm-1 时,可逆光致发光强度调控幅度达-85%,远超PLZT-Er 陶瓷材料(+30%).完全相反的电控光致发光变化趋势表明了 PLZT-Er 薄膜与陶瓷材料在电场作用下存在结构演化差异.PLZT-Er 薄膜在电场作用下反常的光致发光强度减弱现象揭示了薄膜中 Er3+周围局部晶体场对称性在电场调制下增强,其原因可归结于基底钳位效应导致的反铁电正交相向铁电正交相的相变过程,以及电场强度不足时亚铁电相向反铁电相的不完全相变.

Introduction The photoluminescence(PL)of rare-earth-doped materials is predominantly controlled by the local crystal field symmetry around rare-earth ions.Using electric fields(E)to modify the PL properties is particularly intriguing as it is compatible with modern electronics and is promising for advanced applications in optical information storage and communication.It is reported that the E-induced structural evolution in host ferroelectrics(FEs)can effectively manipulate the crystal field environment surrounding rare-earth ions,consequently enabling a dynamic modulation of PL intensity(i.e.,the E-PL effect).However,the hysteresis behavior in FEs limits the PL modulation range.Antiferroelectrics(AFEs)show a reversible AFE-FE phase transform with zero remanent polarization,particularly promising for realizing reversible E-PL modulation with large tunability.In AFE thin films,the clamping effect from the substrate may exert a significant influence on the structural evolution during the E-induce phase transition.Therefore,compared with the ceramic forms,it is possible to analyze distinct E-PL behavior in rare-earth doped AFE thin films. Methods 1%Er3+-dopedPb0.98La0.02Zr0.95Ti0.05O3(PLZT-Er)thin films were prepared on Pt/Ti/SiO2/Si substrates by a sol-gel/spin-coating method with lead acetate trlhydrate(PbC4H6O4·3H2O,99.99%(379.33),Aladdin Co.,China),lanthanum nitrate hexahydrate(LaN3O9·6H2O,99%(433.03),Aladdin Co.,China),erbium trinitrate pentahydrate(Er(NO3)3·5H2O,99.9%(443.37),Aladdin Co.,China),zirconium propoxide(C12H28O4Zr,70%(327.56),Aladdin Co.,China),and titanium butoxide(C16H36O4Ti,≥99.0%(340.32),Aladdin Co.,China)as the raw materials.The crystal structure was characterized by X-ray diffraction(XRD,Ultima III,Rigaku Co.,Japan).The surface morphology was observed using atomic force microscopy(AFM,ICON,Bruker Co.,Germany).The polarization(P-E)and current(I-E)loops were measured by a ferroelectric analyzer(AIX ACT,TF2000)at 1 kHz.The down-conversion photoluminescence(DCPL)emission spectra were measured by fluorescence spectroscopy(ULS2048x64TEC,Avantes Co.,the Netherlands)under 405 nm and 532 nm laser excitation.For the E-PL tests,20 nm-thick transparent indium tin oxide(ITO)top electrodes were deposited on the surfaces of PLZT-Er thin film by magnetron sputtering in argon atmosphere(2.0 Pa)at 320 wd3. Results and discussion The structural,PL,and E-PL properties of PLZT-Er AFE thin films are systematically investigated.The XRD patterns confirm a pure perovskite structure with a lattice shrinkage due to the substitution of Er3+at A-sites,whereas the AFM analysis reveals a smooth surface with a roughness of approximately 3 nm.The double P-E loop and characteristic I-E peaks verify the AFE nature of PLZT-Er thin films,with reversible AFE→FE transitions at±452 kV·cm-1 and FE→AFE transitions at±199 kV·cm-1.Under 405 nm excitation,the PLZT-Er exhibits 487 nm(4F7/2→4I15/2)and 610 nm(4F9/2→4I15/2)emissions,whereas an excitation at 532 nm induces 560 nm(4S3/2→4I15/2),660 nm(4F9/2→4I15/2),and 850 nm(4S3/2→4I13/2)emissions,all originating from efficient energy transfer and relaxation of Er³⁺ ions.The reults of E-PL tests demonstrate a remarkable reversible modulation.In 830 kV·cm-1,the emission at 487 nm shows an 85.14%reduction,with stable switching over six cycles.This performance outperforms PLZT-Er ceramics(+30%modulation)and most reported FE/AFE materials,which is attributed to their higher breakdown strength.The opposite E-PL tuning compared to PLZT-Er ceramics is explained by increased local crystal field symmetry around Er3+ions,arising from either substrate clamping-induced antiferroelectric orthorombic →ferroelectric orthorombic phase transition or incomplete ferrielectric→antiferroelectric transition in an insufficient electric field.These findings highlight the PLZT-Er thin films as promising candidates for optical information storage and communication devices. Conclusions Er3+-doped Pb0.98La0.02Zr0.95Ti0.05O3(PLZT-Er)thin films exhibited a reversible electric-field-modulated photoluminescence(E-PL)effect.Under 405 nm laser excitation,a PL reduction of-85%could be achieved in an applied electric field of 830 kV·cm-1.This negative E-PL tuning trend was anomalously opposite to that in bulk PLZT-Er ceramics.Two potential mechanisms could be proposed to explain this anomalous phenomenon,i.e.,either the antiferroelectric orthorombic(AFEO)to ferroelectric orthorombic(FEO)phase transition or the incomplete ferrielectric(FiE)to antiferroelectric(AFE)phase transition in PLZT-Er thin films could increase the local crystal field symmetry around Er3+ions.

高畅;张天祐;吴世喆;裴家杰;徐泽东;赵纯林;吴啸;林枞;高旻

福州大学材料科学与工程学院,福州 350108福州大学材料科学与工程学院,福州 350108天津工业大学材料科学与工程学院,天津 300387福州大学材料科学与工程学院,福州 350108天津工业大学电子与信息工程学院,量子材料与器件研究院,天津 300387福州大学材料科学与工程学院,福州 350108福州大学材料科学与工程学院,福州 350108福州大学材料科学与工程学院,福州 350108福州大学材料科学与工程学院,福州 350108

通用工业技术

稀土掺杂光致发光电场调控相变薄膜

rare-earth dopingphotoluminescenceelectric-field-modulationphase transitionthin films

《硅酸盐学报》 2026 (6)

1883-1891,9

国家自然科学基金(52102126,52072075,12104093)福建省自然科学基金(2022J01087,2022J01552,2025J01470)天津市光电检测技术与系统重点实验室开放项目(2024LODTS101).

10.14062/j.issn.0454-5648.20250928

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