解榮軍
廈門大學材料學院副院長
中國稀土學會發光專業委員會委員,中國光學學會發光材料專業委員會委員,美國陶瓷學會《Journal of the American Ceramics》編輯(2018年1月起),Journal of Luminescence副主編,國際顯示器論壇(International Display Workshop, IDW)發光分會程序委員會委員(2010年至今)。
教育經歷
西安交通大學機械工程學院,碩士(1995);
中國科學院上海硅酸鹽研究所,工學博士(1998)。
工作經歷
1998.09–2000.09,日本國立無機材質研究所(現NIMS),STA Fellow博士后;
2000.10–2000.12,日本國立無機材質研究所(現NIMS),特別研究員;
2001.01–2002.03,日本國立產業技術綜合研究所(AIST),JST博士后;
2002.04–2003.03,德國達姆斯塔特工業大學,洪堡學者;
2003.04–2007.03,日本國立材料研究所(NIMS),主任研究員(終身職位);
2007.04–2014.03,日本國立材料研究所(NIMS),首席研究員(終身職位);
2011.03–2014.02,中國科學院寧波材料技術與工程研究所,旗艦人才(兼職);
2011.09–2012.10,荷蘭艾因霍恩理工大學,訪問教授;
2014.03–2017.12,日本國立材料研究所(NIMS),主席研究員(終身職位);
2014.11–至今,廈門大學材料學院,國家高層次人才,教授。
1、稀土摻雜發光材料;
2、量子點;
3、透明陶瓷;
4、發光與顯示器件;
5、感測與探測器件。
解榮軍先後承擔了日本文部省和學術振興學會、國家基金委和科技部多項有關稀土發光材料及其應用的科研項目,包括主持日本JSPS基礎研究B類和C類項目、國家自然科學基金重點項目、國家自然科學基金中荷國際合作項目、國家自然科學基金海峽聯合基金重點項目和面上項目等科研項目。已在Chem. Rev., Light: Sci.& Appl., Adv. Funct. Mater., Chem. Mater., ACS Appl. Mater. Interfaces, J. Mater. Chem. C, Opt. Lett., Appl. Phys. Lett., J. Am. Ceram. Soc.等國際國內著名學術刊物上共發表SCI收錄論文300多篇,引用13000餘次,H因子56 (Google Scholar)。出版《Nitride Phosphors and Solid State Lighting》英文專著一部,參與編寫專著四部。已授權日本、美國和韓國發明專利32項,授權中國發明專利9項。
解榮軍榮獲2012年日本文部科學大臣表彰的科技技術獎、2007年日本筑波獎勵獎、2005年和2008年日本熒光粉獎、2011年日本電氣化學學會技術獎(棚橋獎)、2018年中國產學研合作創新成果獎優秀獎和2019年日本陶瓷協會學術獎。指導學生奪得2018年第四屆全國“網際網路+”大學生創新創業大賽全國亞軍、2018年“創青春”浙大雙創杯全國大學生創業大賽創業實踐挑戰賽金獎;榮獲第四屆中國“網際網路+”大學生創新創業大賽優秀創業導師和2019年獲廈門大學本科生科創競賽指導教師突出貢獻獎。
1)ZL201610098239.6,解榮軍;一種發光陶瓷材料及其製備方法和應用,2019/2/26
3)ZL201810738173.1,解榮軍,游世海,鄭鵬,周天亮,李淑星;激光照明用氮化物熒光粉/玻璃複合光轉換組件及其製備,2020/3/10
4)ZL201910062579.7,解榮軍,鄭鵬,周天亮;一種透射式藍光激光照明組件,2020/8/18
5)ZL201611014600.9,解榮軍,呂營,庄逸熙,李燁,周天亮;一種橙紅光長餘輝熒光粉及其製備方法,2019/4/9
7)ZL201811069082.X,解榮軍,劉榮輝,曾華濤,周天亮,劉元紅;一種寬頻發射近紅外發光物質及包含該物質的發光器件,2020/5/11
8)DE112006000291,広崎尚登、解栄軍;2019/8/14
9)ZL201210106881.6,広崎尚登、解栄軍;熒光體及其製造方法和發光器具,2015/9/30
10)US8883039,広崎尚登、解栄軍、三友護;蛍光體とその製造方法および照明器具, 2014/11/11
11)EP1997865 B1,解栄軍、広崎尚登;Phosphor, method for producing same, and light emitting device, 2013/6/11
12)EP2366754 B1,広崎尚登、解栄軍;Phosphor, production method thereof and light emitting instrument, 2014/8/27
13)EP2360225,広崎尚登、解栄軍;蛍光體とその製造方法および発光器具、2013/6/26
14)JP5294245,広崎尚登、李遠強、解栄軍;蛍光體とその製造方法および照明器具, 2013/6/21
15)I384053,広崎尚登、解栄軍、三友護;蛍光體とその製造方法および照明器具, 2013/2/1
16)JP5187817,解栄軍、広崎尚登;蛍光體と発光器具、2013/4/24
17)JP5234781,解栄軍、広崎尚登;蛍光體とその製造方法および照明器具、2013/4/5
18)JP5224439,解栄軍、広崎尚登;蛍光體、及びそれを用いた発光器具、2013/3/22
19)JP5105347,広崎尚登、解栄軍;蛍光體とその製造方法および照明器具、2012/10/12
20)I375710,広崎尚登、解栄軍;蛍光體とその製造方法および照明器具、2012/11/1
21)JP5145534,広崎尚登、解栄軍;蛍光體とその製造方法および照明器具、2012/12/7
22)JP5110518,広崎尚登、解栄軍;蛍光體とその製造方法および照明器具、2012/10/19
23)JP5071709,解栄軍、広崎尚登;蛍光體と発光器具、2012/8/31
24)JP5071714,広崎尚登、李遠強、解栄軍;蛍光體、その製造方法およびそれを用いた発光器具、2012/8/31
25)ZL200580036164.9,広崎尚登、解栄軍;蛍光體とその製造方法および照明器具, 2012/6/6
26)KR1118459,広崎尚登、解栄軍、三友護;蛍光體とその製造方法および照明器具, 2012/2/13
27)JP4822203,解栄軍、三友護;リチウム含有サイアロン蛍光體およびその製造法、2011/9/16
28)JP4822206,山本吉信、三友護、解栄軍;貝殻を用いたCa-α-サイアロン蛍光體の製造方法、2011/9/16
29)KR1060216,広崎尚登、解栄軍、三友護;蛍光體とその製造方法および照明器具、2011/8/23
30)JP4756261,広崎尚登、解栄軍;蛍光體とその製造方法および発光器具、2011/6/10
31)JP4724881,解栄軍、三友護、広崎尚登;Yb系α-サイアロン蛍光體、2011/4/22
32)US7910023B2,解栄軍、三友護、広崎尚登、山本吉信;Lithium-containing SiALON Phosphor and Method of Manufacturing the same, 2011/3/22
33)US7825580B2,広崎尚登、解栄軍;Fluorophor and Method for Production thereof and Illuminator, 2010/11/2
34)JP4524368,解栄軍、三友護、広崎尚登;サイアロン蛍光體とその製造方法、2010/6/11
35)US7713443B2,広崎尚登、解栄軍;Phosphor Production Method, 2010/5/11
36)US7540977B2,広崎尚登、解栄軍;Phosphor, Production Method thereof and Light Emitting Instrument, 2009/6/2
2020
1)S. You, S.X. Li*, L. Wang*, T. Takeda, N. Hirosaki and R.-J. Xie*, Ternary solid solution phosphors Ca1-x-yLixAl1-x-ySi1+x+yN3-yOy:Ce3+ with enhanced thermal stability for high-power laser lighting, Chem. Eng. J., 404: 126575 (2020).
2)S. You, S.X. Li, Y. Jia* and R.-J. Xie*, Interstitial Site Engineering for Creating Unusual Red Emission in La3Si6N11:Ce3+, Chem. Mater., 32: 3631 (2020).
3)R.-J. Xie*, Light-emitting diodes: brighter NIR-emitting phosphor making light sources smarter, Light Sci. Appl., 9: 155 (2020).
4)C.J. Chen, Y.X. Zhuang*, D. Tu, X.D Wang, C.F. Pan and R.-J. Xie*, Creating visible-to-near-infrared mechanoluminescence in mixed-anion compounds SrZn2S2O and SrZnSO,Nano Energy, 68, 104329 (2020).
5)X.L. Xiao. Y. Li* and R.-J. Xie*, Blue-emitting and self-assembled thinner perovskite CsPbBr3 nanoplates: synthesis and formation mechanism, Nanoscale, 9231-9239 (2020).
6)M.Q. Mao, T.L. Zhou*, H.T. Zeng, L. Wang*, F. Huang, X.Y. Tang and R.-J. Xie*, Broadband near-infrared (NIR) emission realized by the crystal-field engineering of Y3-xCaxAl5-xSixO12:Cr3+ (x = 0-2.0) garnet phosphors, J. Mater. Chem. C, 8(6): 1981-1988(2020).
7)X.F. Luo, Z.Y. Hou, T.L. Zhou and R.-J. Xie*, A universal HF‐free synthetic method to highly efficient narrow‐band red‐emitting A2XF6:Mn4+ (A = K, Na, Rb, Cs; X = Si, Ge, Ti) phosphors, J. Am. Ceram. Soc., 103(2): 1018-1026 (2020).
8)L. Wang*, R. Wei, P. Zheng, S.H. You, T.L. Zhou, W. Yi, T. Takeda, N. Hirosaki and R.-J. Xie*, Realizing high-brightness and ultra-wide-color gamut laser-driven backlighting by using laminated phosphor-in-glass (PiG) films, J. Mater. Chem. C, 8: 1746-1754 (2020).
9)C. Xia, Y. Xu, M.M. Cao, Y.P. Liu, J.F. Xia, D.Y. Jiang, G.H. Zhou, R.-J. Xie, D.F. Zhang and H.L. Li*, A selective and sensitive fluorescent probe for bilirubin in human serum based on europium (III) post-functionalized Zr(IV)-Based MOFs, Talanta, 212: 120795 (2020).
10)X.F. Luo and R.-J. Xie*, Recent progress on discovery of novel phosphors for solid state lighting, J. Rare Earths, 38: 464 (2020).
11)Z.Y. Wang, Y. Cheng, C Zhang, D. Wang, P. Liang, H. Zhang, R.-J. Xie* and L. Wang*, Electronic Structure and Optical Properties of Vacancy-Ordered Double Perovskites Cs2Pd BrxCl6-x by First-Principles Calculation, J. Mater. Chem. C, 124: 13310 (2020).
12)T.T. Xuan, S.C. Shi, L. Wang, H.C. Guo and R.-J. Xie*, Inkjet-Printed Quantum Dot Color Conversion Films for High-Resolution and Full-Color Micro Light-Emitting Diode Displays, J. Phys. Chem. Lett., 11: 5184 (2020).
13)C. Fang, Y. Li, Y.T. Cai, T.L. Zhou, X.Y. Tang* and R.-J. Xie*, Facial synthesis of highly stable and bright CsPbX3(X=Cl, Br, I) perovskite nanocrystalsviaan anion exchange at the water-oil interface, Sci. China Mater., DOI: 10.1007/s40843-020-1379-4.
14)M.N. Wu, Y.X. Zhuang*, J.B. Liu, W.W. Chen, X.Y. Li and R.-J. Xie*, Ratiometric fluorescence detection of 2,6-pyridine dicarboxylic acid with a dual-emitting lanthanide metal-organic framework (MOF), Opt. Mater., 106: 110006 (2020).
15)T.T. Xuan and R.-J. Xie*, Recent processes on light-emitting lead-free metal halide perovskites, Chem. Eng. J., 393: 124757 (2020).
16)J.Y. Si, L.H. Liu, Q.F. Liang, W. Yi, G.M. Cai, J. Zhang, T. Takeda, N. Hirosaki and R.-J. Xie*, Enhanced quantum efficiency and thermal stability in tunable yellow-emitting SrxCa1-xAlSiN3:Ce3+phosphor, J. Alloy Compds., 831: (2020).
17)N.S.M. Viswanath, G. K. Grandhi, H.J. Kim, Y.X. Zhuang, R.-J. Xie and W.B. Im, A new persistent blue-emitting phosphor: Tailoring the trap density for enhancing the persistent time, Appl. Mater. Today, 18: 100518 (2020).
18)Y. Wu, Y.X. Zhuang*, R.-J. Xie*, K. Ruan and X. Ouyang, Novel Mn4+ doped red phosphors composed of MgAl2O4 and CaAl12O19 phases for light-emitting diodes, Dalton Trans., 49: 3603 (2020).
2019
1)Z.Y. Li, Y. Li, P. Liang, T.L. Zhou, L. Wang* and R.-J. Xie*, Dual-Band Luminescent Lead-Free Antimony Chloride Halides with Near-Unity Photoluminescence Quantum Efficiency, Chem. Mater., 31(22): 9363-9371 (2019).
2)P. Zheng, S.X. Li*, R. Wei, L. Wang*, T.L. Zhou, Y.R. Xu, T. Takeda, N. Hirosaki and R.-J. Xie*, Unique Design Strategy for Laser-Driven Color Converters Enabling Superhigh-Luminance and High-Directionality White Light, Laser Photonic Rev., 13(10): 1900147 (2019).
3)Y.R. Xu, S.X. Li*, P. Zheng, L. Wang*, S.H. You, T. Takeda, N. Hirosaki and R.-J. Xie*, A search for extra-high brightness laser-driven color converters by investigating thermally-induced luminance saturation, J. Mater. Chem. C, 7(37): 11449-11456 (2019).
4)S.X. Li, Y.H. Xia, M. Amachraa, N.T. Huang, Z.B. Wang*, S.P. Ong* and R.-J. Xie*, Data-Driven Discovery of Full-Visible-Spectrum Phosphor, Chem. Mater., 31(16): 6286-6294 (2019).
5)W. Sun, L. Luo, Y. Feng, Y. Cai, Y.X. Zhuang, R.-J. Xie, X.Y. Chen* and H.M. Chen*, Aggregation-Induced Emission Gold Clustoluminogens for Enhanced Low-Dose X-ray-Induced Photodynamic Therapy, Angew. Chem., 131: 1-8 (2019).
6)S.X. Li and R.-J. Xie*, Review-Data-Driven Discovery of Novel Phosphors, ECS J. Solid State Sci. Technol., 9(1): 016013 (2019).
7)Y.T. Cai, Y. Li, L. Wang* and R.-J. Xie*, A Facile Synthesis of Water-Resistant CsPbBr3 Perovskite Quantum Dots Loaded Poly(methyl methacrylate) Composite Microspheres Based on In Situ Polymerization, Adv. Opt. Mater., 7(22): 1901075 (2019).
8)H.T. Zeng, T.L. Zhou*, L. Wang* and R.-J. Xie*, Two-Site Occupation for Exploring Ultra-Broadband Near-Infrared Phosphor-Double-Perovskite La2MgZrO6:Cr3+, Chem. Mater., 31(14): 5245-5253 (2019).
9)Y.J. Zhao, L.J. Yin, M. ten Kate, B. Dierre, R. Abellon, R.-J. Xie*, J.R. van Ommen and H.T. Hintzen, Enhanced thermal degradation stability of the Sr2Si5N8:Eu2+ phosphor by ultra-thin Al2O3 coating through the atomic layer deposition technique in a fluidized bed reactor, J. Mater. Chem. C, 7(19): 5772-5781 (2019).
10)C.J. Lin, Y.X. Zhuang*, W.H. Li, T.L. Zhou and R.-J. Xie*, Blue, green, and red full-color ultralong afterglow in nitrogen-doped carbon dots, Nanoscale, 11(14): 6584-6590 (2019).
11)J.C. Wang, X.Y. Tang*, P. Zheng, S.X. Li*, T.L. Zhou and R.-J. Xie*, Thermally self-managing YAG:Ce-Al2O3 color converters enabling high-brightness laser-driven solid state lighting in a transmissive configuration, J. Mater. Chem. C, 7(13): 3901-3908 (2019).
12)Y. Lv, D. Ding, Y.X. Zhuang*, Y. Feng, J. Shi, H. Zhang, T.L. Zhou, H. Chen* and R.-J. Xie*, Chromium-Doped Zinc Gallogermanate@Zeolitic Imidazolate Framework-8: A Multifunctional Nanoplatform for Rechargeable In Vivo Persistent Luminescence Imaging and pH-Responsive Drug Release, ACS Appl. Mater. Interfaces, 11: 1907−1916 (2019).
13)Y.T. Cai, H.R. Wang, Y. Li*, L. Wang, Y. Lv, X.Y. Yang* and R.-J. Xie*, Trimethylsilyl Iodine-Mediated Synthesis of Highly Bright Red-Emitting CsPbI3 Perovskite Quantum Dots with Significantly Improved Stability, Chem. Mater., 31(3): 881-889 (2019).
14)L. Zhang, W. He, D.-L. Peng, Q.S. Xie* and R.-J. Xie*, A Layered Lithium-Rich Li(Li0.2Ni0.15Mn0.55Co0.1)O2 Cathode Material: Surface Phase Modification and Enhanced Electrochemical Properties for Lithium-Ion Batteries, ChemElectroChem., 6: 1542-1551 (2019).
15)S.H. You, S.X. Li*, P. Zheng, T.L. Zhou, L. Wang*, L.H. Liu, N. Hirosaki, F.F. Xu and R.-J. Xie*, A Thermally Robust La3Si6N11:Ce-in-Glass Film for High-Brightness Blue-Laser-Driven Solid State Lighting, Laser Photonics Rev., 13(2): 1800216 (2019).
16)C.Y. Wang*, T. Takeda*, O.M. ten Kate, S. Funahahshi, R.-J. Xie, K. Takahashi and N. Hirosaki, New Deep-Blue-Emitting Ce-Doped A4-mBnC19+2mX29+m (A = Sr, La; B = Li; C = Si, Al; X = O, N; 0 m 1; 0 n 1) Phosphors for High-Color-Rendering Warm White Light-Emitting Diodes, ACS Appl. Mater. Interface, 11(32): 29047-29055 (2019).
17)P. Chen*, Q.Q. Zhu, T. Takeda, N. Hirosaki and R.-J. Xie*, A promising thermally robust blue-green Li-alpha-sialon:Ce3+ for ultraviolet LED-driven white LEDs, J. Alloy Compds., 805: 1004-1012 (2019).
18)X. Liu, X. Qian, P. Zheng, Z. Hu, X. Chen, H. Pan, J. Zou, R.-J. Xie and J. Li*, Preparation and optical properties of MgAl2O4-Ce:GdYAG composite ceramic phosphors for white LEDs, J. Euro. Ceram. Soc., 39(15): 4965-4971 (2019).
19)Y.F. Liu*, S. Liu, P. Sun, Y.B. Du, S. Lin, R.-J. Xie*, R. Dong, J. Jiang and H.C. Jiang, Transparent Ceramics Enabling High Luminous Flux and Efficacy for the Next-Generation High-Power LED Light, ACS Appl. Mater. Interface, 11(24): 21697-21701 (2019).
20)S. Liu, P. Sun, Y.F. Liu*, T.L. Zhou, S.X. Li, R.-J. Xie*, X. Xu, R. Dong, J. Jiang and H.C. Jiang, Warm White Light with a High Color-Rendering Index from a Single Gd3Al4GaO12:Ce3+ Transparent Ceramic for High-Power LEDs and LDs, ACS Appl. Mater. Interface, 11(2): 2130-2139 (2019).
21)X.J. Zhang, S.C. Si, J.B. Yu, Z.J. Wang, R.H. Zhang, B.F. Lei, Y.L. Liu, J.L. Zhuang, C.F. Hu, Y.J. Cho, R.-J. Xie, H.W. Zhang, Z.F. Tian and J. Wang, Improving the luminous efficacy and resistance to blue laser irradiation of phosphor-in-glass based solid state laser lighting through employing dual-functional sapphire plate, J. Mater. Chem. C, 7(2): 354-361 (2019).
22)C.H. Li, Y. Li, T.L. Zhou and R.-J. Xie*, Ultrasonic synthesis of Mn-doped CsPbCl3 quantum dots (QDs) with enhanced photoluminescence, Opt. Mater., 94: 41-46 (2019).
23)R. Wei, L. Wang*, P. Zheng, H.T. Zeng, G.M. Pan, H. Zhang, P. Liang, T.L. Zhou and R.-J. Xie*, On the luminance saturation of phosphor-in-glass (PiG) films for blue-laser driven white lighting: Effects of the phosphor content and the film thickness, J. Euro. Ceram. Soc., 39(5): 1909-1917 (2019).
24)Y.B. Wu, Y.X. Zhuang*, Y. Lv, K.B. Ruan and R.-J. Xie*, A high-performance non-rare-earth deep-red-emitting Ca14-xSrxZn6Al10O35:Mn4+ phosphor for high-power plant growth LEDs, J. Alloy Compds., 781: 702-709 (2019).
25)C. Zhang, T. Uchikoshi*, R.-J. Xie*, L.H. Liu, Y. Sakka and N. Hirosaki, Significantly improved photoluminescence of the green-emitting -sialon:Eu2+ phosphor via surface coating of TiO2, J. Am. Ceram. Soc., 102: 294-302 (2019).
26)L.H. Liu, C. Zhang, K. Takahashi, T. Nishimura, H. Segawa, N. Hirosaki and R.-J. Xie*, Uniform and fine Mg-γ-AlON powders prepared from MgAl2O4: A promising precursor material for highly-transparent Mg-γ-AlON ceramics, J. Euro. Ceram. Soc., 39: 928-933 (2019).
2018
1)S. You, S. Li*, P. Zheng, T.-L. Zhou, L. Wang*, L. Liu, N. Hirosaki, F.F. Xu and R.-J. Xie, A Thermally Robust La3Si6N11:Ce-in-Glass Film for High-Brightness Blue-Laser-Driven Solid State Lighting, Laser Photonics Rev., 1800216 (2018).
2)S. Li, L. Wang*, N. Hirosaki and R.-J. Xie*, Color Conversion Materials for High-Brightness Laser-Driven Solid-State Lighting, Laser Photonics Rev., 2018, 1800173.
3)Y. Cai, L. Wang*, T.-L. Zhou, P. Zheng, Y. Li* and R.-J. Xie*, Improved stability of CsPbBr3 perovskite quantum dots achieved by suppressing interligand proton transfer and applying a polystyrene coating, Nanoscale, 10, 21441–21450 (2018).
4)W. Li, Y. Zhuang*, P. Zheng, T.-L. Zhou, J. Xu, J. Ueda, S. Tanabe, L. Wang* and R.-J. Xie*, Tailoring trap depth and emission wavelength in Y3Al5-x,GaxO12:Ce3+,V3+ phosphor-in-glass films for optical information storage, ACS Appl. Mater. Interfaces, 10, 27150-27159 (2018).
5)J. Yu, S. Si, Y. Liu, X. Zhang, Y. Cho, Z. Tian, R.-J. Xie, H. Zhang, Y. Li and J. Wang*, High-power laser-driven phosphor-in-glass for excellently high conversion efficiency white light generation for special illumination or display backlighting, J. Mater. Chem. C, 6, 8212-8218 (2018).
6)W. Chen, Y. Zhuang*, L. Wang*, Y. Lv, J. Liu, T.-L. Zhou and R.-J. Xie*, Color-tunable and high-efficiency dye-encapsulated metal-organic framework composites used for smart white-light-emitting diodes, ACS Appl. Mater. Interfaces, 10, 18910-18917 (2018).
7)J. Chen, Y. Li*, L. Wang*, T.-L. Zhou and R.-J. Xie*, Achieving deep-red-to-near-infrared emissions in Sn-doped Cu-In-S/ZnS quantum dots for red-enhanced white LEDs and near-infrared LEDs, Nanoscale, 10, 9788-9795 (2018).
8)P. Zheng, S. Li*, L. Wang*, T.-L. Zhou, S. You, T. Takeda, N. Hirosaki and R.-J. Xie*, Unique color converter architecture enabling phosphor-in-glass (PiG) films suitable for high-power and high-luminance laser-driven white lighting, ACS Appl. Mater. Interfaces, 10, 14930-14940 (2018).
9)C. Zhang, T. Uchikoshi*, R.-J. Xie*, L. Liu, Y. Sakka, and N. Hirosaki, Photoluminescence efficiency significantly enhanced by surface modification of SiO2 coating on beta-sialon: Eu2+ phosphor particle, J. Alloys Compds., 741, 454-458 (2018).
10)Z. Hou, X. Tang*, X. Luo, T.-L. Zhou, L. Zhang and R.-J. Xie*, A green synthetic route to the highly efficient K2SiF6:Mn4+ narrow-band red phosphor for warm white light-emitting diodes, J. Mater. Chem. C, 6, 2741-2746 (2018).
11)F. Yao, L. Wang *, Y. Lv, Y. Zhuang*, T.-L. Zhou and R.-J. Xie*, Composition-dependent thermal degradation of red-emitting (Ca1-xSrx)AlSiN3:Eu2+ phosphors for high color rendering white LEDs,J. Mater. Chem. C, 6, 890-898 (2018).
12)L. Wang, R.-J. Xie*, T. Takeda, T. Suehiro, and N. Hirosaki, Down-Conversion Nitride Materials for Solid State Lighting: Recent Advances and Perspectives, Chem. Rev., 118, 1951-2009 (2018).
13)Y.X. Zhuang*, L. Wang*, Y. Lv, T.-L. Zhou and R.-J. Xie*, Optical data storage and multicolour emission readout on flexible films using deep-trap persistent luminescence materials, Adv. Funct. Mater., 28, 1705769 (2018).
14)Y.X Zhuang,* Y.Lv, L. Wang*, W.W. Chen, T.-L. Zhou, T. Takeda, N.Hirosaki, and R.-J. Xie*, Trap depth engineering of SrSi2O2N2:Ln2+,Ln3+ (Ln2+ = Yb, Eu; Ln3+ = Dy, Ho, Er) persistent luminescence materials for information storage applications, ACS Appl. Mater. Interfaces, 10, 1854-1864 (2018).
15)J.B. Liu, Y.X. Zhuang*, L. Wang*, T.-L. Zhou, N. Hirosaki and R.-J. Xie*, Achieving multicolor long-lived luminescence in dye-encapsulated metal-organic frameworks and its application to anticounterfeiting stamps, ACS Appl. Mater. Interfaces, 10, 1802-1809 (2018).
16)S.X. Li, L.Wang*, D.M. Tang, Y. Cho, X.J. Liu, X. Zhou, L. Lu, L. Zhang, T. Takeda, N. Hirosaki and R.-J.Xie*, Achieving high quantum efficiency β-Sialon:Eu2+ phosphors for high-brightness and wide color gamut LCD backlights by eliminating the Eu3+ luminescence killer, Chem. Mater., 30, 494-505 (2018).
2017
1)C.-Y. Wang, T. Takeda, O.M. ten Kate, M. Tansho, K. Deguchi, K. Takahashi, R.-J. Xie, T. Shimaze and N. Hirosaki, Ce-doped La3Si6.5Al1.5N9.5O5.5, a rare highly efficient blue-emitting phosphor at short wavelength toward high color rendering white LED application, ACS Appl. Mater. Interface, 9, 22665-22675 (2017).
2)Y. Lv, L. Wang*, Y. Zhuang*, T.L. Zhou and R.-J. Xie*, Discovery of the Yb2+-Yb3+couple as red-to-NIR persistent luminescence emitters in Yb-activated(Ba1-xSrx)AlSi5O2N7 phosphors, J. Mater. Chem. C, 5, 7095-7101 (2017).
3)X.J. Zhang, J. B. Yu, J. Wang, B. F. Lei, Y.L. Liu, Y. J. Cho, R.-J. Xie, H. W. Zhang, Y.R. Li, Z.F. Tian, Y. Li and Q. Su, All-Inorganic Light Convertor Based on Phosphor-in-Glass Engineering for Next-Generation Modular High-Brightness White LEDs/LDs, ACS Photons., 4, 986-995 (2017).
4)L. Wang*, X.-J. Wang, K. Takahashi, T. Takeda, N. Hirosaki and R.-J. Xie*, Nitride phosphors as robust emissive materials in white flat field emission lamps, Opt. Mater. Express, 7, 1934-1941 (2017).
5)D. Luo, L. Wang*, S. W. Or, H. Zhang, and R.-J. Xie*, Realizing superior white LEDs with both high R9 and luminous efficacy by using dual red phosphors, RSC Adv., 7,25964-25968 (2017).
6)Z. Chen, Q. Zhang, Y. G. Li*, H. Z. Wang* and R.-J. Xie*, A promising orange-yellow-emitting phosphor for high power warm-light white LEDs: Pure-phase synthesis and photoluminescence properties, J. Alloy Compds. 715, 184-191 (2017).
7)K. Yoshimura, H. Fukunaga, M. Izumi, M. Harada, K. Takahahshi, H. Segawa, R.-J. Xie and N. Hirosaki, Optical properties of green-emitting β-sialon:Eu phosphor-containing silica glasses and their deterioration mechanism, Jpn. J. Appl. Phys., 56, 060302 (2017).
8)S. Li, D. Tang, Z. Tian, X,J, Liu, T. Takeda, N. Hirosaki, F. Xu, Z. Huang and R.-J. Xie*, New insights into the microstructure of translucent CaAlSiN3:Eu2+ phosphor ceramics for solid state
9)J. Wan, Q. Liu*, G. Liu, Z. Zhou, J. Ni and R.-J. Xie*, A novel Eu2+-activated G-La2Si2O7phosphor for white LEDs: SiC reduction synthesis, tunable luminescence and good thermal stability, J. Chem. Mater. C, 5, 1616 (2017).
10)Q.Q. Zhu, X. Xu, L. Wang, Z.F. Tian, Y.Z. Xu, N. Hirosaki and R.-J. Xie*, A robust red-emitting phosphor-in-glass (PiG) for use in white lighting sources pumped by blue laser diodes, J. Alloy. Compds., 702, 193 (2017).
11)K. Yoshimura, H. Fukunaga, M. Izumi, K. Takahashi, R.-J. Xie and N. Hirosaki, Achieving super wide-color-gamut display by using narrow-band green-emitting γ-alon:Mn, Mg phosphor, Jpn. J. Appl. Phys., 56, 041701 (2017).
12)Y. Li, J. Wan g, X.-M. Wang, F. Pan, T.L. Zhou and R.-J. Xie*, Colour tuning via crystalline site-selected energy transfer in a Sr2SiO4:Eu2+,Pr3+; phosphor, J. Mater. Chem. C, 5, 1022-1026 (2017).
2016
1)J. Wang, Q. Liu*, G. Liu, Z. Zhou, J. Ni and R.-J. Xie*, A novel synthesis of green apatite-type Y5(SiO4)3N:Eu2+ phosphor via Sic-assisted Sol-Gel route, J. Am. Ceram. Soc., 99(3) 748-751 (2016).
2)C.Y. Wang, T. Takeda, O.M. ten Kate, R.-J. Xie, K. Takahashi and N. Hirosaki, Synthesis and photoluminescence properties of a phase pure green-emitting Eu doped JEM sialon (LaSi6-zAl1+zN10-zOz, z ~1) phosphor with a large red-shift of emission and unusual thermal quenching behavior, J. Mater. Chem. C, 4,10358-10366 (2016).
3)Y. Zhuang*, Y. Lv, Y. Li, T.-L. Zhou, J. Xu, J. Ueda, S. Tanabe and R.-J. Xie*, Study on Trap Levels in SrSi2AlO2N3:Eu2+,Ln3+ Persistent Phosphors Based on Host-Referred Binding Energy Scheme and Thermoluminescence Analysis, Inorg. Chem., 55(22),11890–11897 (2016).
4)M. ten Kate*, R.-J. Xie*, C.Y. Wang, S. Funahashi and N. Hirosaki, Eu2+-DopedSr2B2-2xSi2+3xAl2-xN8+x: A Boron-Containing Orange-Emitting Nitridosilicate with Interesting Composition-Dependent Photoluminescence Properties, Inorg. Chem.,55(21), 11331–11336 (2016).
5)S.X. Li, L. Wang, Q.Q. Zhu, D.M. Tang, X.J. Liu*, G.F. Cheng, L. Lu, T. Takeda, N. Hirosaki, Z. Huang and R.-J. Xie*, Crystal structure, tunable emission and applications of Ca1-xAl1-xSi1+xN3-xOx: RE (x = 0-0.22, RE = Ce3+, Eu2+) solid solution phosphors for white light-emitting diodes, J. Mater. Chem. C, 4, 11219-11230 (2016).
6)L. Wang*, R.-J. Xie*, Y.Q. Li, X.J. Wang, C.G. Ma, D. Luo, T. Takeda, Y.-T. Tsai, R.S. Li and N. Hirosaki, Ca1−xLixAl1−xSi1+xN3:Eu2+ solid solutions as broadband, color-tunable and thermally robust red phosphors for superior color rendition white light-emitting diodes, Light: Sci.& Appl., 5(10), e16155 (2016).
7)H. Ji, L. Wang, Y. Cho, N. Hirosaki, M.S. Molokeev, Z.G. Xia, Z.H. Huang* and R.-J.Xie*, New Y2BaAl4SiO12:Ce3+ yellow microcrystal-glass powder phosphor with high thermal emission stability, J. Mater. Chem. C, 4(41), 9872-9878 (2016).
8)S.X. Li, Q.Q. Zhu, D.M. Tang, X.J. Liu*, G. Ouyang, L. Cao, N. Hirosaki, T. Nishimura,Z. Huang and R.-J. Xie*, Al2O3-YAG:Ce composite phosphor ceramic: A thermally robust and efficient color converter for solid state laser lighting, J. Mater. Chem. C,4(37), 8648-8654 (2016).
9)Q.Q. Zhu, L. Wang, N. Hirosaki, L.Y. Hao, X. Xu* and R.-J. Xie*, An Extra-Broad Band Orange-Emitting Ce3+-doped Y3Si5N9O phosphor for Solid-State Lighting: Electronic and Crystal Structures, Luminescence properties, Chem. Mater., 28(13),4829–4839 (2016).
10)S. X. Li, Q.Q. Zhu, L. Wang, D.M. Tang, Y. Cho, X.J. Liu*, N. Hirosaki, T. Nishimura, T.Sekiguchi, Z. Huang and R.-J. Xie*, CaAlSiN3:Eu2+ translucent ceramic: A promising robust and efficient red color converter for solid state laser displays and lighting, J. Mater. Chem. C, 4(35), 8197-8205 (2016)
11)H. Ji, L. Wang, M.S. Molokeev, N. Hirosaki, R.-J. Xie*, Z.H. Huang*, Z.G. Xia*, O.M.ten Kate, L.H. Liu and V.V. Atuchin, Structure evolution and photoluminescence ofLu3(Al,Mg)2(Al,Si)3O12:Ce3+ phosphors: New yellow-color converter for blu eLED-driven solid state lighting, J. Mater, Chem. C, 4(28), 6855-6863 (2016).
12)K. Yoshimura, H. Fukunaga, M. Izumi, M. Masuda, T. Uemura, K. Takahashi, R.-J. Xie and N. Hirosaki, White LEDs using the sharp β-sialon: Eu phosphor and Mn-doped red phosphor for wide-color gamut display applications: White LEDs for wide-color gamut display, J. SID, 24(7), 449-453 (2016).
13)T.-T. Xuan, J.-Q. Liu, C.-Y. Yu, R.-J. Xie and H.-L. Li, Facile Synthesis of Cadmium-Free Zn-In-S:Ag/ZnS Nanocrystals for Bio-Imaging, Sci. Report, 6, 24459(2016).
14)C. N. Zhang, T. Uchikoshi*, R.-J. Xie*, L.H. Liu, Y. Cho, Y. Sakka, N. Hirosaki and T.Sekiguchi, Thermal- and moisture-induced degradation on photoluminescence (PL)properties of Sr2Si5N8:Eu2+ red phosphor effectively prevented via thermal treatment in N2-H2 and degradation mechanisms, Phys. Chem. Chem. Phys., 18(18),12494-12504 (2016).
15)H. Ji, L. Wang, M.S. Molokeev, N. Hirosaki, Z.H. Huang*, Z.G. Xia, O.M. ten kate, L.H. Liu and R.-J. Xie*, New garnet structure phosphors, Lu3−xYxMgAl3SiO12:Ce3+ (x =0–3), developed by solid solution design, J. Mater. Chem. C, 4(12), 2359-2366(2016).
16)J. Wan, Q. Liu*, G.H. Liu, Z. Zhou, J. Ni and R.-J. Xie*, A Novel Synthesis of Green Apatite-Type Y5(SiO4)3N:Eu2+ Phosphor via SiC-Assisted Sol-Gel Route, J. Am. Ceram. Soc., 99(3), 748–751 (2016).
17)M. ten Kate*, R.-J. Xie*, S. Funahashi, T. Takeda and N. Hirosaki,Significant colour tuning via energy transfer in Eu2+ solely doped La2.5Ca1.5Si12O4.5N16.5, RSC Adv., 6, 20681-20686 (2016).
18)K. Yoshimura, K. Annen, H. Fukunaga, M. Harada, M. Izumi, K. Takahashi, T. Uchikoshi, R.-J. Xie and N. Hirosaki, Optical properties of solid-state laser lighting devices using SiAlON phosphor–glass composite films as wavelength converters, Jpn. J. Appl. Phys., 55, 042102 (2016).
2015
1)L. Wang, X. J. Wang, T. Takeda, N. Hirosaki, Y.-T. Tsai, R.-S. Liu and R.-J. Xie*, Structure, Luminescence, and Application of a Robust Carbidonitride Blue Phosphor (Al1−xSixCxN1−x:Eu2+) for Near UV-LED Driven Solid State Lighting, Chem. Mater., 27,8457-8466 (2015).
2)T.-T. Xuan, J.-Q. Liu, R.-J. Xie, H.-L. Li* and Z. Sun, Microwave-Assisted Synthesis ofCdS/ZnS:Cu Quantum Dots for White Light-Emitting Diodes with High Color Rendition, Chem. Mater., 27, 1187-1193 (2015).
3)T. Takeda, N. Hirosaki, S. Funahshi and R.-J. Xie, Narrow-Band Green-Emitting Phosphor Ba2LiSi7AlN12:Eu2+ with High Thermal Stability Discovered by a Single Particle Diagnosis Approach, Chem. Mater., 27, 5892-5898 (2015).
4)X.-J. Wang, L. Wang, T. Takeda, S. Funahashi, T. Suehiro, N. Hirosaki and R.-J. Xie*, Blue-Emitting Sr3Si8−xAlxO7+xN8−x:Eu2+ Discovered by a Single-Particle-Diagnosis Approach: Crystal Structure, Luminescence, Scale-Up Synthesis, and Its Abnormal Thermal Quenching Behavior, Chem. Mater., 27, 7689-7697 (2015).
5)Q.-Q. Zhu, X.-J. Wang, L. Wang, N. Hirosaki, T. Nishimura, Z.-F. Tian, Q. Li, Y.-Z. Xu, X. Xu and R.-J. Xie*, β-Sialon:Eu phosphor-in-glass: a robust green color converter for high power blue laser lighting, J. Mater. Chem. C, 3, 10761-10766 (2015).
6)J. Zhu, L. Wang, T. Zhou, Y. Cho, T. Suehiro, T. Takeda, M. Lu, T. Sekiguchi, N. Hirosaki and R.-J. Xie*, Moisture-induced degradation and its mechanism of (Sr,Ca)AlSiN3:Eu2+, a red-color-converter for solid state lighting, J. Mater. Chem. C, 3,3181-3188 (2015).
7)C. Zhang, T. Uchikoshi, R.-J. Xie*, L. Liu, Y. Cho, Y. Sakka, N. Hirosaki and T.Sekiguchi, Reduced thermal degradation of the red-emitting Sr2Si5N8:Eu2+ phosphor via thermal treatment in nitrogen, J. Mater. Chem. C, 3, 7642-7651 (2015).
8)L. Liu, L. Wang, C. Zhang, Y. Cho, B. Dierre, N. Hirosaki, T. Sekiguchi and R.-J. Xie*, Strong Energy-Transfer-Induced Enhancement of Luminescence Efficiency of Eu2+-and Mn2+-Codoped Gamma-AlON for Near-UVLED-Pumped Solid State Lighting, Inorg. Chem., 54, 5556-5565 (2015).
9)L. Wang, X.J. Wang, T. Kohsei, K.-i. Yoshimura, M. Izumi, N. Hirosaki and R.-J. Xie*, Highly efficient narrow-band green and red phosphors enabling wider color-gamut LED backlight for more brilliant displays, Opt. Express, 23, 28707-28717 (2015).
10)L. Wang, H. Zhang, X.-J. Wang, B. Dierre, T. Suehiro, T. Takeda, N. Hirosaki and R.-J.Xie*, Europium(II)-activated oxonitridosilicate yellow phosphor with excellent quantum efficiency and thermal stability – a robust spectral conversion material for highly efficient and reliable white LEDs, Phys. Chem. Chem. Phys., 17, 15797-15804(2015).
11)K. Takahashi, B. Dierre, Y. Cho, T. Sekiguchi, R.-J. Xie and N. Hirosaki, Microanalysis of Calcium Codoped LaAl(Si6-zAlz)(N10–zOz) (z~1): Ce3+ Blue Phosphor, J. Am. Ceram. Soc., 98, 1253-1258 (2015).
12)S.X. Li, X. J. Liu*, R.H. Mao, Z.R. Huang and R.-J. Xie*, Red-emission enhancement of the CaAlSiN3:Eu2+ phosphor by partial substitution for Ca3N2 by CaCO3 and excess calcium source addition, RSC Adv. 5, 76507-76515 (2015).
13)S. Li, X.-J. Liu*, J.-Q. Liu and H.L. Li, R.H. Mao, Z.R. Huang and R.-J. Xie*, Synthesis, composition optimization, and tunable red emission of CaAlSiN3:Eu2+ phosphors for white light-emitting diodes, J. Mater. Res., 30, 2919-2927 (2015).
