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[15] T. Lyu*, P. Dorenbos, C. Li, S. Li, J. Xu, Z. Wei*, Unraveling electron liberation from Bi2+ for designing Bi3+-based afterglow phosphor for anti-counterfeiting and flexible X-ray imaging, Chemical Engineering Journal 435 (2022) 135038. (论文全文)

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[14] 吕天帅博士论文:Rational Design of Afterglow and Storage Phosphors

      链接:Rational Design of Afterglow and Storage Phosphors | TU Delft Repositories

[13] T. Lyu*, P. Dorenbos, Towards information storage by designing both electron and hole detrapping processes in bismuth and lanthanide-doped LiRE(Si,Ge)O4 (RE=Y, Lu) with high charge carrier storage capacity, Chemical Engineering Journal (2020), 124776, DOI: https://doi.org/10.1016/j.cej.2020.124776.

[12] T. Lyu*, P. Dorenbos, Vacuum referred binding energies of bismuth and lanthanide levels in ARE(Si,Ge)O4 (A=Li, Na; RE=Y, Lu); towards designing charge carrier trapping processes for energy storage, Chemistry of Materials 32 (2020) 1192-1209.

[11] T. Lyu*, P. Dorenbos, Designing thermally stimulated 1.06 µm Nd3+ emission for the second bio-imaging window demonstrated by energy transfer from Bi3+ in La-, Gd-, Y-, and LuPO4Chemical Engineering Journal 372 (2019) 978-991.

[10] T. Lyu*, P. Dorenbos, Bi3+ acting both as an electron and as a hole trap in La-, Y-, and LuPO4Journal of Materials Chemistry C 6 (2018) 6240-6249.

[9] T. Lyu*, P. Dorenbos, Charge carrier trapping processes in lanthanide doped LaPO4, GdPO4, YPO4, and LuPO4Journal of Materials Chemistry C 6 (2018) 369-379.

[8] T.-S. Lv, X.-H. Xu, X. Yu, J.-B. Qiu, Evolution in the Oxidation Valences and Sensitization Effect of Copper Through Modifying Glass Structure and Sn2+/Si Codoping, Journal of the American Ceramic Society 98 (2015) 2078-2085.

[7] T. Lv, X. Xu, D. Zhou, J. Qiu, Influence of Cu+ cations on photoluminescence properties of Tb3+ in Cu+–Na+ ion-exchanged sodium-borosilicate glasses, Journal of Non-Crystalline Solids 409 (2015) 14-19.

[6] T. Lv, X. Xu, X. Yu, D. Zhou, J. Qiu, Multi-wavelength-driven solar spectral conversion in P2O5-ZnO-Li2O glasses for improving greenhouse photosynthetic activity, Ceramics International 41 (2015) 645-650.

[5] T.-S. Lv, X.-H. Xu, D.-C. Zhou, H.-L. Yu, J.-B. Qiu, Efficient multi-wavelength-driven spectral conversion from ultraviolet to visible in transparent borosilicate glasses, Ceramics International 40 (2014) 12367-12373.

[4] T. Lv, X. Xu, X. Yu, H. Yu, D. Zhou, J. Qiu, Tunable Mission and Trichromatic White-Emitting in Oxyfluoride Glasses by Utilization of Cu+ Ions as Multiple Energy-Transfer Creators, Journal of the American Ceramic Society 97 (2014) 2897-2902.

[3] T.-S. Lv, X.-H. Xu, D.-J. Wang, L. Sun, J.-B. Qiu, Fabrication, structure and photoluminescence properties of Eu3+-activated red-emitting Ba2Gd2Si4O13 phosphors for solid-state lighting, Optoelectronics Letters 10 (2014) 106-110.

[2] T.-S. Lv, X.-H. Xu, X. Yu, H.-L. Yu, D.-J. Wang, D.-C. Zhou, J.-B. Qiu, Tunable full-color emitting borosilicate glasses via utilization of Ce3+ ions as multiple energy transfer contributors, Journal of Non-Crystalline Solids 385 (2014) 163-168.

[1] T.S. Lv, X.H. Xu, D.C. Zhou, J.B. Qiu, Deep-UV-Driven Emission-Tailorable Borosilicate Glasses by Utilization of Sn2+ Cations as Versatile Energy-Transfer Establishers, ECS Journal of Solid State Science and Technology 3 (2014) R89-R94.