闫冰
发布时间:2016-01-09  浏览次数:


闫冰
所学专业:无机化学
职称:高级
类别:研究人员
研究方向:稀土化学、杂化材料、微纳固体、光物理
国内外学术组织任职情况(国内外学术组织名称):上海市稀土学会理事,中国稀土学会稀土发光专业委员会委员。
联系电话:021-65983921
Email:byan@tongji.edu.cn
专业方向:无机化学
办公室:021-65983921, 65984663


简介


1970年12月生于吉林省长春市
1992年7月 哈尔滨工业大学  工学学士
1995年7月 哈尔滨工业大学  工学硕士
1998年7月 中国科学院长春应用化学研究所 理学博士
1998年8月至2001年9月 香港城市大学研究助理;北京大学、舍布鲁克大学  博士后研究员
2001年11月 同济大学化学系  教授、博士生导


主讲课程:
本科生课程:普通化学、中国近现代科学技术史等;硕士生、博士生课程:稀土化学、现代无机合成与制备化学等。
研究领域及方向  无机化学、稀土化学、材料化学与物理
1 稀土/无机/有机/高分子杂化光转换材料体系的强弱作用协同设计、构筑与组装
2 稀土功能化合物及微纳米固体的温和控制合成、相结构、微结构和光转换性质
3 稀土晶体骨架杂化复合体系的功能化组装、光功能集成及其在发光显示器件与传感的应用
4 高值化稀土基发光及相关功能材料及其在相关交叉领域的研制、应用及开发


科研成果:
    作为通讯作者在Chem. Commun.、Chem. Eur. J.、Inorg. Chem.、J. Mater. Chem. (A / C)、J. Phys. Chem. B / C.、Chem. Asi. J.、Dalton Trans.等被SCI收录的国际重要英文期刊发表学术研究论文300余篇,不完全统计被SCI期刊他引4000余次,入选爱思唯尔(Elsevier)2014年中国高被引学者榜单(材料科学),近期2篇入选ESI “Hot Paper, 4篇入选ESI Highly Cited Papers。授权发明专利30余项,H因子40。
    作为主要完成人参加国家自然基金重点项目子课题(2项),国家重点基础研究规划项目(973)子课题,国家自然基金面上项目,中国科学院重大基金项目等。作为负责人主持国家自然科学基金项目(5项)。
    曾获得中国科学院院长奖学金、中国科学院稀土化学与物理重点实验室青年科学一等奖。入选教育部2008年度新世纪优秀人才支持计划。现为上海市稀土学会理事,中国稀土学会稀土发光专业委员会委员。
    已培养毕业博士生18名,硕士生40名(含8名硕博连读生);其中有45名先后56次获得同济大学研究生各类奖学金,(自2012年始)有11名获得国家奖学金。欢迎有志于从事稀土科学研究的青年学子加盟。


近期代表论文:

  1. X. Y. Xu, B. Yan*, “Eu (III) functionalized Zr-based metal-organic framework as excellent fluorescent probe for Cd2+ detection in aqueous environment”, Sensors Actuators B: Chem. 2016, 222, 347-353.

  2.  C. Liu,  B. Yan*, “Highly effective chemosensor of luminescent silica@lanthanide complex@MOF heterostructure composite for metal ion sensing”, RSC Adv. 2015, 5, 101982-101988.

  3. B. Yan, Photofunctional Rare Earth Materials Based on Ionic Liquids, chapter 8 in Book Application of Ionic Liquids on Rare Earth Green Separation and Utilization, Page 179-206, Edited by J. Chen, Spinger-Verlag Gmbh Heidelberg, 2015.

  4. X. H. He, B. Yan*, “High-Energy Organic Groups Induced Spectrally Pure Upconversion Emission in Novel Zirconate-/hafnate-based Nanocrystals”, CrystEngComm 2015, 17, 7169-7174.

  5. Y. Zhou, B. Yan*, “Ratiometric detection of temperature using responsive dual-emissive MOF hybrids”, J. Mater. Chem. C 2015, 3, 9353-9358.

  6. C. Liu, B. Yan*, Zelolite-type metal organic frameworks immobilized Eu3+ for cation sensing in aqueous enviorment, J. Coll. Interf. Sci. 2015, 459, 206-211.

  7. J. N. Hao, B. Yan*, “Recyclable lanthanide-functionalized MOF hybrids to determine hippuric acid in urine as biological indices of toluene exposure”, Chem. Commun. 2015, 51, 14509-14512.

  8. X. H. He, B. Yan*, Doube role of the hydroxy group for water dispersibility and luminescence of REF3 (RE = Yb, Er, Tm) based mesocrystals”, New J. Chem. 2015, 39, 6730-6733.

  9. Y. Zhou, B. Yan*, “Ratiometric multiplexed barcodes based on luminescent metal-organic framework films”, J. Mater. Chem. C 2015, 3, 8413-8418.

  10. C. Liu, B. Yan*, “Luminescent zinc metal-organic framework (ZIF-90) for sensing metal cations, anions and small molecules”, Photochem. Photobiol. Sci. 2015, 14, 1644-1650.

  11. X. Lian, B. Yan*, “Multi-component luminescent lanthanide hybrids of both functionalized IR-MOF-3 and SBA-15”, New J. Chem. 2015, 39, 5898-5901.

  12. T. W. Duan, B. Yan*, H. Weng, “Europium activated yttrium hybrid system for sensing toxic anion of Cr (VI) species”, Microp. Mesop. Mater. 2015, 217, 196-202.

  13. X. Shen, B. Yan*, “A novel fluorescence probe for sensing organic amine vapors from Eu3+ β-diketonate functionalized bio-MOF-1 hybrid system”, J. Mater. Chem. C 2015, 3, 7038-7044.

  14. X. Shen, B. Yan*, “Photofunctional hybrids of lanthanide functionalized bio-MOF-1 for fluorescence tuning and sensing”, J. Coll. Interf. Sci. 2015, 451, 63-68.

  15. L. Chen, B. Yan*, “Multi-componnt assembly and luminescence tuning of lanthanide hybrids through the inside-outside double modification of zeolite A/L”, New J. Chem. 2015, 39, 4154-4161.

  16. J. N. Hao, B. Yan*, “A water-stable lanthanide-functionalized MOF as a highly selective and sensitive fluorescent probe for Cd2+”, Chem. Commun. 2015, 51, 7737-7740.

  17. T. W. Duan, B. Yan*,  “Lanthanide ions (Eu3+, Tb3+, Sm3+, Dy3+) activated ZnO embedded zinc 2,5-pridinedicarboxylic metal organic frameworks for luminescent application”, J. Mater. Chem. C 2015, 3, 2823-2830.

  18. X. Shen, Y. Lu, B. Yan*, “Lanthanide complex hybrid system for fluorescent sensing as thermometer”, Eur. J. Inorg. Chem. 2015, 916-919.

  19. Y. Zhou, B. Yan*, “Lanthanides post-functionalized nanocrystalline metal-organic frameworks for tunable white-light emission and orthogonal multi-readout thermometry”, Nanoscale 2015, 7, 4063-4069.

  20. J. N. Hao, B. Yan*, “Ag+-sensitized lanthanide luminescence in Ln3+ post-functionalized metal-organic framework and Ag+ sensing”, J. Mater. Chem. A 2015, 3, 4788-4792.

  21. L. Chen, B. Yan*, “Multi-component lanthanide hybrids based on zeolite A/L and zeolite A/L-polymer for tunable luminescence”, Photochem. Photobiol. Sci. 2015, 14, 358-365.

  22. C. Liu, B. Yan*, “Photofunctional nanocomposites based on the functionalization of metal-organic framework by up/downconverion luminescent nanophosphors”, New J. Chem. 2015, 39, 1125-1131.

  23. X. Y. Xu, B. Yan*, “Eu(III)-functionalized MIL-124 as fluorescent probe for highly selectively sensing ions and organic small molecules especially for Fe(III) and Fe(II)”, ACS Appl. Mater. Interfaces 2015, 7, 721-729.

  24. C. Liu, B. Yan*, Multicomponent hybrid with surfactant-capped lanthanide polyoxometalate and ZIF-8 to tune lumnescence, RSC Adv. 2015, 5, 11101-11108.

  25. C. Liu, B. Yan*, “Photoactive hybrid polymer films incorporated with both lanthanide complex and ZIF-8 for selectively excited multi-color luminescence”, Eur. J. Inorg. Chem. 2015, 279-287.

  26. X. Shen, B. Yan*, “Photoactive rare earth complexes for fluorescent tuning and sensing cations (Fe3+) and anions (Cr2O72-)”, RSC Adv. 2015, 5, 6752-6757.

  27. X. Shen, B. Yan*, “Polymer hybrid thin films based on rare earth ion-functionalized MOF: photoluminescence tuning and sensing as thermometer”, Dalton Trans. 2015, 44, 1875-1881.

  28. X. H. He, B. Yan*, “Yttrium hydroxide fluoride based monodisperse mesocrystals: additive-free synthesis, enhanced fluorescent properties, and potential application in temperature sensing”, CrystEngComm  2015, 17, 621-627.

  29. X. Y. Xu, B. Yan*, “Intercalation of lanthanide cations to a layer-like metal-organic framework for color tunable and white light emission”, Dalton Trans. 2015, 44, 1178-1185.

  30. Y. Lu, B. Yan*, “Lanthanide organic-inorganic hybrids based on functionalized metal-organic frameworks (MOFs) for near-UV white LED”, Chem. Commun. 2014, 50, 15443-15446.

  31. Y. Zhou, B. Yan*, Fang Lei, “Postsynthetic lanthanides functionalization of nanosized metal-organic frameworks for highly sensitive ratiometric luminescent nanothermometers”, Chem. Commun. 2014, 50, 15235-15238.

  32. Y. Lu, B. Yan*, “A ratiometric fluorescent pH sensor based on nanoscale metal-organic frameworks (MOFs) modified by europium (III) complex”, Chem. Commun. 2014, 50, 13323-13326.

  33. J. N. Hao, B. Yan*, “Highly sensitive and selective fluorescent probe for Ag+ based on a Eu3+ post-functionalized metal-organic framework in aqueous media”, J. Mater. Chem. A 2014, 2, 18018-18025.

  34. B. Yan*, J. Cuan, “Novel luminescent hybrids by incorporating rare earth beta-diketonates into polymers through ion pairing with an imidazolium counter ion”, Photochem. Photobiol. Sci. 2014, 13, 1469-1475.

  35. X. Y. Xu, B. Yan*, “Novel photofunctional hybrid materials (alumina and titania) functionalized with both MOF and lanthanide complexes through coordination bonds”, RSC Adv. 2014, 4, 38761-38768.

  36. L. Chen, B. Yan*, “Multi-component assembly and luminescence tuning of lanthanide hybrids based with both Zeolite L/A and SBA-15 through two organically grafted linkers”, Dalton Trans. 2014, 43, 14123-14131.

  37. Y. Lu, B. Yan*, “Luminescent lanthanide barcodes based on postsynthetic functionalized nanoscale metal-organic frameworks”, J. Mater. Chem. C 2014, 2, 7411-7416.

  38. Y. Lu, B. Yan*, J. L. Liu, “Nanoscale metal-organic framework as highly sensitive luminescent ensor for Fe2+ in aqueous solution and living cell”, Chem. Commun. 2014, 50, 9969-9972.

  39. J. N. Hao, B. Yan*, “Amino-decorated lanthanide (III) – organic extended frameworks for multi-color luminescence and fluorescence sensing”, J. Mater. Chem. C 2014, 2, 6758-6764.

  40. X. H. He, B. Yan*, “One-stone-two-birds modulation for Na3ScF6 based novel nanocrystals: simulaneous ous morphology evolution and luminescence tuning”, Cryst. Growth Des. 2014, 14, 3257-3263.

  41. Y. Zhou, H. H. Chen, B. Yan*, “Eu3+ post-functionalized nanosized metal-organic framework for cation exchange-based Fe3+--sensing in aqueous enviorment”, J. Mater. Chem. A 2014, 2, 13691-13697.

  42. B. Yan*, Q. P. Li, “Photofunctional hybrids of lanthanide (Eu3+, Tb3+)/beta-diketonate functionalized MCM-41/ SBA-15 mesoporous host prepared with 1,4,7,10-tetraazacyclododecane modified siloxane as covalent linkage”, Microp. Mesop. Mater. 2014, 196, 284-291.

  43. J. N. Hao, B. Yan*, “Hybrid polymer thin films with lanthanide-zeolite A host-guest system: coordination bonding assembly and photo-integration”, New J. Chem. 2014, 38, 3540-3547.

  44. Y. Lu, B. Yan*, “A novel visible and ninfrared luminescent monolayer thin film based on postsynthetic method and functional linker”, J. Mater. Chem. C 2014, 2, 5526-5532.

  45. T. W. Duan, B. Yan*,“Hybrids based on lanthanide ions activated yttrium metal organic frameworks: functional assembly, polymer film preparation and luminescence tuning”, J. Mater. Chem. C 2014, 2, 5098-5104.

  46. Q. Zhang, Z. Jiang, B. Yan*, “Ultrasmall and monodisperse colloidal amorphous Nd-Fe-B-Na magnetic nanoparticles with high Tc”, Inorg. Chem. Front. 2014, 1, 384-388.

  47. Z. Y. Yan, B. Yan*, “Novel photoactive lanthanide complex functionalized hybrid soft xerogels through ionic liquid linkage”, New J. Chem. 2014, 38, 2604-2610.

  48. Y. F. Shao, B. Yan*, “Multi-component hybrids of surfactant functionalizedeuropium tetrakis(β-diketonate) in MCM-41(m) and polymer modified ZnOfor luminescence integration”, Microp. Mesop. Mater. 2014, 193, 85-92.

  49. Y. Zhou, B. Yan*, “Imparting tunable and white-light luminescence to a nanosized metal-organic framework by controlled encapsulation of lanthanide cations”, Inorg. Chem. 2014, 53, 3456-3463.

  50. T. W. Duan, B. Yan*,“Novel luminescent hybrids by incorporating rare earth ternary complex into CdS QDs loaded zeolite Y crystals through coordination reaction”, CrystEngComm 2014, 16, 3395-3402.

  51. X. H. He, B. Yan*, “Novel series of quaternary fluoride nanocrystals: room-temperature synthesis and down-shifting/up-converting multicolor fluorescence”, J. Mater. Chem. C 2014, 2, 2368-2374.

  52. B. Yan*, Y. F. Shao, “Multicomponent hybrids with surfactant-encapsulated europium polyoxometalate covalently bonded ZnO and tunable luminescence”, RSC Adv. 2014, 4, 3318-3325.

  53. J. Cuan, B. Yan*, “Luminescent lanthanide-polyoxometalates assembling zirconia / alumina / titania hybrid xerogels through task-specified ionic liquid linkage”, RSC Adv. 2014, 4, 1735-1743.

  54. J. N. Hao, B. Yan*, “Photofunctional host-guest hybrid materials and thin film of lanthanide complexes covalently linked to functionalized Zeolite A”, Dalton Trans. 2014, 43, 2810-2818.

  55. Y. Zhou, B. Yan*, X. H. He, “Controlled synthesis and up/down-conversion luminescence of self-assembled hierarchical architectures of monoclinic AgRE(WO4)2:Ln3+ (RE = Y, La, Gd, Lu; Ln = Eu, Tb, Sm, Dy, Yb/Er, Yb/Tm)”, J. Mater. Chem. C 2014, 2, 848-855.

  56. J. Cuan, B. Yan*, “Photofunctional hybrid materials with polyoxometalates and benzoate modified mesoporous silica through double functional imidazolium ionic liquid linkage”, Microp. Mesop. Mater. 2014, 183, 9-16.

  57. 闫冰,“无机有机杂化纳米孔材料:功能化组装、光物理性质及应用”,197-232,于吉红、闫文付主编,<纳米孔材料化学>-催化及功能化,科学出版社,2013。

  58. J. Cuan, B. Yan*, “Cool-white light emitting hybrid materials of resin-mesoporous silica composite matrix encapsulating europium polyoxometalates through ionic liquid linker”, RSC Adv. 2013, 3, 20077-20084.

  59. J. Cuan, B. Yan*, “Multi-component assembly and photophysical property of europium polyoxometalates and polymer functionalized (mesoporous) silica through double functional ionic liquid linker”, Dalton Trans. 2013, 42, 14230-14239.

  60. Q. P. Li, B. Yan*, “Novel luminescent hybrids by incorporating rare earth b-diketonates into polymers through ion pairing with an imidazolium counter ion”, Photochem. Photobiol. Sci. 2013, 12, 1628-1635.

  61. Y. Mei, Y. Lu, B. Yan*, “Multi-component hybrid soft gels containing Eu3+ complexes and MS (M = Zn, Cd) nanoparticles assembled with mercapto- ion liquid linkage: adjustable color and white luminescence”, New J. Chem. 2013, 37, 2619-2623.

  62. Y. Zhou, B. Yan*, “RE2(MO4)3: Ln3+ (RE = Y, La, Gd, Lu; M = W, Mo; Ln = Eu, Sm, Dy) microcrystals: controlled synthesis, microstructure and tunable luminescence”, CrystEngComm 2013, 15, 5694-5702.

  63. X. H.  He, B. Yan*, “A novel Sc3+-containing fluoride host material for down- and up-conversion luminescence”, J. Mater. Chem. C 2013, 1, 3910-3912.

  64. B. Yan*, Y. F. Shao, “Multifunctional nanocomposites of lanthanide (Eu3+, Tb3+) complex functionalized magnetic mesoporous silica nanospheres covalently bonded with ZnO-polymer”, Dalton Trans. 2013, 42, 9565 -9573.

  65. Y. J. Gu, B. Yan*, “Novel photoversion lanthanide functionalized SBA-15 mesoporous hybrids: ultraviolet-visible excitation and visible-NIR emission”, Eur. J. Inorg. Chem. 2013, 2963-2970.

  66. Y. Zhao, B. Yan*, “Rare earth (Eu3+, Tb3+) / β-diketonate functionalized mesoporous SBA-15 / GaN nanocomposites: multi-component chemical bonding assembly, characterization and luminescence”, J. Coll. Interf. Sci. 2013, 395, 145-153.

  67. Y. Y. Li, B. Yan*, Q. P. Li, “Bifunctional heterometallic Ln3+-Gd3+ (Ln = Eu, Tb) hybrid silica microspheres: luminescence and MRI contrast agent property”, Dalton Trans. 2013, 42, 1678-1686.

  68. Y. J. Gu, B. Yan*, “Lanthanide mesoporous SBA-15 hybrids through functionalized 6-hydroxybenz[de]anthracen-7-one linkage: UV-visible light sensitization and visible-NIR luminescence”, J. Coll. Interf. Sci. 2013, 393, 36-43.

  69. Y. F. Shao, B. Yan*, Q. P. Li, “Magnetic mesoporous silica nanospheres-supported europium (III) tetrakis(β-diketonate) complexes using ionic liquid compound as linker”, Eur. J. Inorg. Chem. 2013, 381-387.

  70. Y. Y. Li, B. Yan*, X. F. Qiao, “Visible light excitation and near-infrared luminescence of lanthanide mesoporous hybrids through 9-hydroxyphenalen-1-one linkage by chemical bonds”, Microp. Mesop. Mater. 2013, 169, 60-66.

  71. Q. Zhang, B. Yan*, F. Lei, H. H. Chen, “Organic salt assisted colloidal synthesis and X-ray luminescence of (Tm, Tb, Eu)-doped LaOBr nanocrystals”, Nanoscale 2012, 2, 7646-7648.

  72. Q. P. Li, B. Yan*, “Luminescent GaN semiconductor based on surface modification with lanthanide complexes through an ionic liquid bridge”, RSC Adv. 2012, 2, 10840-10843.

  73. B. Yan*, “Recent progress on photofunctional lanthanide hybrid materials”, RSC Adv. 2012, 2, 9304-9324.

  74. Y. F. Shao, B. Yan*, Z. Y. Jiang, “Multicomponent assembly of luminescent hybrid materials of ZnO-lanthanide polymer complex functionalized SBA-15 mesoprous host by chemical bonds”, RSC Adv. 2012, 2, 9192-9200.

  75. Q. P. Li, B. Yan*, “Luminescent hybrid materials of Lanthanide β-diketonate and mesoporous host through the covalent and ion bonding with anion metathesis”, Dalton Trans. 2012, 41, 8567-8574.

  76. Q. P. Li, B. Yan*, “Multi-walled carbon nanotube based ternary rare earth (Eu3+, Tb3+) hybrid materials with organically modified silica-oxygen bridge”, J. Coll. Interf. Sci. 2012, 380, 67-74.

  77. Y. F. Shao, B. Yan*, “Photofunctional hybrids of rare earth complexes covalently bonded to ZnO core-shell nanoparticles substrate through polymer linkage”, Dalton Trans. 2012, 41, 7423-7430.

  78. B. Yan*, Y. Y. Li, X. F. Qiao, “Photofunctional metalloporphrines functionalized mesoporous hybrids phen-Ln(LSi)-SBA-15 (Ln = Nd, Yb, L = porphyrin derivatives”, Microp. Mesop. Mater. 2012, 158, 129-136.

  79. Q. Zhang, B. Yan*, “Salt effect based synthesis and anomalous magnetic properties of rare-earth oxide nanosheets with sub-1-nm thickness”, Chem. Eur. J. 2012, 18, 5150-5154.

  80. Y. Zhao, B. Yan*, “Rare earth hybrid materials of organically modified silica covalently bonded GaN matrix: multicomponent assembly and multi-color luminescence”, Dalton Trans. 2012, 41, 5334-5342.

  81. Y. Y. Li, B. Yan*, L. Guo, Y. J. Li, “Ternary lanthanide sulfoxide-functionalized mesoporous hybrids Phen-RE(OBDS(BSAB))3-SBA-15 (RE = Eu, Tb): covalently bonded assembly, characterization, and photoluminescence”, Microp. Mesop. Mater. 2012, 148, 73-79.

  82. B. Yan*, Y. J. Li, “Photoactive lanthanide (Eu3+, Tb3+) centered hybrid systems with titania-mesoporous silica / aluminum mesoporous silica based hosts”, J. Mater. Chem. 2011, 21, 18454-18461.

  83. B. Yan*, L. M. Zhao, X. F. Qiao, X. L. Wang, Y. Zhao, “Sol-gel preparation, microstructure and luminescence of rare earth / silica / polyacrylamide hybrids through double functionalized covalent Si-O linkage”, RSC Adv. 2011, 1, 1064-1071.

  84. L. Guo, L. S. Fu, R. A. S. Ferreira, L. D. Carlos, Q. P. Li, B. Yan*, “Novel lanthanide luminescent materials based on multifunctional complexes of 2-sulfanylpyridine-3-carboxylic acid and silica/titania hosts”, J. Mater. Chem. 2011, 21, 15600-15607.

  85. Y. J. Li, B. Yan*, L. Wang, “Calix[4]arene derivative functionalized lanthanide (Eu, Tb) SBA-15 mesoporous hybrids with covalent bond: assembly, characterization and photoluminescence”, Dalton Trans. 2011, 40, 6722-6731.

  86. Y. J. Li, B. Yan*, “Preparation, characterization and luminescence properties of the ternary europium complexes covalently bonded to titania and mesoporous SBA-15”, J. Mater. Chem. 2011, 21, 8129-8136.

  87. Q. Zhang, B. Yan*, “Phase control of upconversion nanocrystals and new rare earth fluorides through diffusion-controlled strategy in hydrothermal system”, Chem. Commun. 2011, 47, 5867-5869.

  88. L. Guo, B. Yan*, J. L. Liu, “Photofunctional Eu3+/Tb3+ hybrids through sulfoxide linkages: coordination bonds construction, characterization and luminescence”, Dalton Trans. 2011, 40, 4933-4940.

  89. X. L. Wang, B. Yan*, J. L. Liu “Photophysical properties of ternary rare earth (Sm3+,Eu3+
    centered hybrid systems with N-heterocyclic modified Si-O bridge and terminal ligands”, Photochem. Photobiol. Sci. 2011, 10, 580-586.

  90. X. F. Qiao, B. Yan*, “Rare earth (Eu3+, Tb3+) centered polymeric hybrids: composite assembly of radical addition polymerization and condensation reaction, physical characterization and photoluminescence”, New J. Chem. 2011, 35, 568-575.

  91. C. Wang, B. Yan*, J. L. Liu, L. Guo, “Photoactive europium hybrids of b-diketone-modified polysilsesquioxane bridge linking Si-O-B(Ti)-O xerogels”, Eur. J. Inorg. Chem. 2011, 879-887.

  92. J. L. Liu, B. Yan* “Lanthanide-centered organic-inorganic hybrids through a functionalized aza-crown ether bridge: coordination bonding assembly, microstructure and multicolor luminescence”, Dalton Trans. 2011, 40, 1961-1968.

  93. B. Yan*, J. W. Wang, Y. J. Li, “Metallic inorganic/organic hybrid system through functionalized schiff-base linkage: molecular assembly, characterization and luminescence”, J. Alloys Compds. 2011, 509, 9240-9245.

  94. Y. J. Li, L. Wang, B. Yan*, “Photoactive lanthanide hybrids covalently bonded to functionalized periodic mesoporous organosilica (PMO) by calix[4]arene derivative”, J. Mater. Chem. 2011, 21, 1130-1138.

  95. L. Guo, B. Yan*, K. Sheng, X. L. Wang, “Coordination bonding construction, characterization and photoluminescence of ternary lanthanide (Eu3+, Tb3+) hybrids with phenylphenacyl-sulfoxide modified bridge and polymer units”, Dalton Trans. 2011, 40, 632-638.

  96. X. F. Qiao, H. Y. Zhang, B. Yan*, “Photoactive binary and ternary lanthanide (Eu3+, Tb3+, Nd3+) hybrids with p-tert-butylcalix[4]arene derived Si-O linkages and polymers”, Dalton Trans. 2010, 39, 8882-8892.

  97. L. L. Kong, B. Yan*, Y. J. Li, Y. Li, “Photoactive metallic (Al3+, Zn2+, Eu3+, Tb3+, Er3+, Nd3+) mesoporous hybrid materials by functionalized 8-hydroxyquinolinate linkage covalently bonded SBA-15”, Microp. Mesop. Mater. 2010, 135, 45-50.

  98. Q. Zhang, B. Yan*, “Hydrothermal synthesis and characterization of LiREF4 (RE = Y, Tb-Lu) nanocrystals and their core-shell nanostructures”, Inorg. Chem. 2010, 49, 6834-6839.

  99. K. Sheng, B. Yan*, H. F. Lu, L. Guo, “Ternary rare earth inorganic/organic hybrids with a mercapto-functionalized Si-O Linkage and a polymer chain: coordination bonding assembly and luminescence”, Eur. J. Inorg. Chem. 2010, 3498-3505.

  100. Y. J. Li, B. Yan*, Y. Li, “Lanthanide (Eu3+, Tb3+) centered mesoporous hybrids with 1,3-diphenyl-1,3-propanepione covalently linking SBA-15 (SBA-16) and poly(methylacrylic acid)”, Chem. Asi. J. 2010, 5, 1642-1651.

  101. J. L. Liu, B. Yan*, L. Guo, “Photoactive ternary lanthanide-centered hybrids with Schiff-base functionalized polysilsesquioxanes bridges and N-heterocylic ligands”, Eur. J. Inorg. Chem. 2010, 2290-2296.

  102. Y. Li, B. Yan*, Y. J. Li, “Sulfide functionalized lanthanide (Eu/Tb) periodic mesoporous organosilicas (PMOs) hybrids with covalent bond: physical characterization and photoluminescence”, Microp. Mesop. Mater. 2010, 132, 87-93.

  103. Y. J. Li, B. Yan*, “Photoactive europium(III) centered mesoporous hybrids with 2-thenoyltrifluoroacetone functionalized SBA-16 and organic polymers”, Dalton Trans. 2010, 39, 2554-2562.

  104. B. Yan*, X. Z. Xiao, “Hydrothermal synthesis, microstructure and photoluminescence of Eu3+-doped mixed rare earth nano-orthophosphates”, Nanoscale Res. Lett. 2010, 5, 1642-1649.

  105. B. Yan*, F. Lei. “Molten salt synthesis, characterization and luminescence of ZnWO4: Eu3+ nanophosphors”, J. Alloys Compds. 2010, 507, 460-464.

  106. B. Yan*, L. L. Kong, “Binary and ternary heterometallic (La3+, Gd3+, Y3+)-Eu3+ functionalized SBA-15 mesoporous hybrids: chemical bonded assembly and photoluminescence”, Nanoscale Res. Lett. 2010, 5, 1195-1203.

  107. Y. Li, B. Yan*, J. L. Liu, “Luminescent organic-inorganic hybrids of functionalized mesoporous silica SBA-15 by thio-salicylidene schiff base”, Nanoscale Res. Lett. 2010, 5, 797-804.

  108. Y. Li, B. Yan* “Functionalized mesoporous SBA-15 with CeF3: Eu3+ nanoparticle by three different methods: synthesis, characterization, and photoluminescence”, Nanoscale Res. Lett. 2010, 5, 701-708.

  109. X. Z. Xiao, B. Yan*, “Reproducible solvent-thermal synthesis, controlled microstructure and photoluminescence of REPO4: Eu3+, Tb3+ (RE = Y, La, and Gd) nanophosphors”, J. Am. Ceram. Soc. 2010, 93, 2195-2201.

  110. J. H. Wu, B. Yan*, “Room-temperature solid-state reaction behavior, hydrothermal crystallization and physical characterization of NaRE(MoO4)2 and Na5Lu(MoO4)4 compounds”, J. Am. Ceram. Soc. 2010, 93, 2188-2194.

  111. Y. J. Li, B. Yan*, Y. Li, “Luminescent lanthanide (Eu3+, Tb3+) ternary mesoporous hybrids with functionalized b-diketones (TTA, DBM) covalently linking SBA-15 and 2,2’-bipyridine (bpy)”, Microp. Mesop. Mater. 2010, 131, 82-88.

  112. L. Guo, B. Yan*, “Chemically bonding assembly, physical characterization, and photophysical properties of lanthanide hybrids from a functional thiazole bridge”, Eur. J. Inorg. Chem. 2010, 1267-1274.

  113. B. Yan*, Y. Li, “Luminescent ternary inorganic-organic mesoporous hybrids Eu(TTASi-SBA-15)phen: covalent linkage in TTA directly functionalized SBA-15”, Dalton Trans. 2010, 39, 1480-1487.

  114. Y. Li, B. Yan*, “Lanthanide (Tb3+, Eu3+) functionalized MCM-41 through modified meta-aminobenzoic acid linkage: covalently bonding assembly, physical characterization and photoluminescence”, Microp. Mesop. Mater. 2010, 128, 62-70.

  115. X. F. Qiao, B. Yan*, “Binary and ternary lanthanide centered hybrid polymeric materials: coordination bonding construction, characterization, microstructure and photoluminescence”, Dalton Trans. 2009, 38, 8509-8518.

  116. Y. J. Li, B. Yan*, “Lanthanide (Eu3+, Tb3+) / β-diketone modified mesoporous SBA-15 / organic polymer hybrids: chemically bonded construction, physical Characterization, and photophysical properties”, Inorg. Chem. 2009, 48, 8276-8285.

  117. X. F. Qiao, B. Yan*, “Lanthanide centers / functionalized TTA/ silicon-oxygen network / polyethylene glycol hybrid materials: chemically bonded assembly, physical characterization and luminescence”, J. Phys. Chem. B 2009, 113, 11865-11875.

  118. F. Lei, B. Yan*, H. H. Chen, J. T. Zhao, “Template-directed route to fabricate Eu3+-doped white light hydroxyl sodium yttrium tungstate monodisperse microarchitectures and their conversion to NaY(WO4)2”, Inorg. Chem. 2009, 48, 7576-7584.

  119. F. Lei, B. Yan*, H. H. Chen, J. T. Zhao, “Surfactant-assisted hydrothermal synthesis, physical characterization and photoluminescence of PbWO4”, Cryst. Growth Des. 2009, 9, 3730-3736.

  120. X. F. Qiao, B. Yan*, “Luminescent polymeric hybrids functionalized by beta-diketone with silicon-oxygen networks and carbon chains: assembly and characterization”, Eur. Polym. J. 2009, 45, 2002-2010.

  121. X. F. Qiao, B. Yan*, “Hybrid materials of lanthanide centers / functionalized β-diketone / silicon-oxygen network / polymeric chain: coordination bonded assembly, physical characterization and photoluminescence”,Inorg. Chem. 2009, 48, 4714-4723.

  122. H. F. Lu, B. Yan*, J. L. Liu,“Functionalization of calix[4]arene as molecular bridge to assemble novel luminescent lanthanide supramolecular hybrid systems”, Inorg. Chem. 2009, 48, 3966-3975.

  123. B. Yan*, Y. Li, B. Zhou, “Covalently bonding assembly and photophysical properties of luminescent molecular hybrids Eu-TTA-Si and Eu-TTASi-MCM-41 by modified thenoyltrifluoroacetone”, Microp. Mesop. Mater. 2009, 120, 317-324.

  124. B. Yan*, H. X. Zhu, “Novel amphiphilic rare earth precursor complexes with octadecyl cis-butene dicarboxylate to synthesize GdxY2-xO3: Eu3+ nanophosphors”, J. Alloys Compds. 2009, 479, L62-L65.

  125. B. Yan*, J. F. Gu, “Morphology controlled solvo-thermal synthesis and luminescence of NH4ZnPO4: Eu3+ submicrometer phosphors”, J. Alloys Compds. 2009, 479, 536-540.

  126. L. Z. Li, B. Yan*, “BiVO4/Bi2O3 submicrometer sphere composite: microstructure and photocatalytic activity under visible-light irradiation”, J. Alloys Compds. 2009, 476, 624-628.

  127. J. F. Gu, B. Yan*, “Hydrothermal synthesis and luminescent properties of Ca2V2O7: Eu3+ phosphors”, J. Alloys Compds. 2009, 476, 619-623.

  128. F. Lei, B. Yan*, H. H. Chen, J. T. Zhao, “Molten salt synthesis, characterization, and luminescence properties of Gd2MO6:Eu3+ (M = W, Mo) phosphors”, J. Am. Ceram. Soc. 2009, 92, 1262-1267.

  129. F. Lei, B. Yan*, H. H. Chen,“Morphology controlled synthesis, physical characterization and photoluminescence of novel self-assembled pompon-like white light phosphor: Eu3+-doped sodium gadolinium tungstate”, J. Phys. Chem. C 2009, 113, 1074-1082.

  130. X. Z. Xiao, B. Yan*, Y. S. Song, “GdPxV1-xO4: Eu3+ nanophosphors and hydrated Zn3(PO4)2: Eu3+ nano-rod bunches: facile reproducible hydrothermal synthesis, controlled microstructure and photoluminescence”, Cryst. Growth Des. 2009, 9, 136-144.

  131. B. Yan*,Q. M. Wang, D. J. Ma, “Photophysical properties of supramolecular lanthanide- calix[4]arene covalently bonded hybrid systems: constructed through base-initiated nucleophilic addition”, Inorg. Chem. 2009, 48, 36-44.

  132. X. F. Qiao, B. Yan*, “Assembly, characterization and photoluminescence of hybrids containing europium (III) complexes covalently bonded to inorganic Si-O networks / organic polymers by modified β-diketone”, J. Phys. Chem. B 2008, 112, 14742-14750.

  133. Z. Q. He, X. Xu, S. Song*, L. Xie, J. J. Tu, J. M. Chen, B. Yan*, “A visiblelight-driven titanium dioxide photocatalyst codoped with lanthanum and iodine: an application in the degradation of oxalic acid”, J. Phys. Chem. C 2008, 112, 16431-18437.

  134. J. L. Liu, B. Yan*, “Lanthanide (Eu3+, Tb3+) centered hybrid materials using modified Functional bridge chemical bonded with silica: molecular design, physical characterization and photophysical properties”, J. Phys. Chem. B 2008, 112, 10898-10907.

  135. J. L. Liu, B. Yan*, “Molecular construction and photophysical properties of lLuminescent covalently bonded lanthanide hybrid materials: organic ligands containing 1,2,4-triazole grafted with silica by mercapto modification”, J. Phys. Chem. C 2008, 112, 14168 - 14178.

  136. B. Yan*, H. F. Lu, “Lanthanide centered covalently bonded hybrids through sulfide linkage: molecular assembly, physical characterization and photoluminescence”, Inorg. Chem. 2008, 47, 5601-5611.

  137. B. Yan*, Q. M. Wang, “First two luminescent molecular hybrids composed of bridged Eu(III)-b-diketone chelates covalently trapped in silica and titanate gels”, Cryst. Growth Des. 2008, 8, 1484-1489.

  138. S. Song, L. J. Xu, Z. Q. He, H. P. Ying, J. M. Chen, X. Z. Xiao, B. Yan*, “Photocatalytic degradation of CI direct Red 23 in aqueous solutions under UV irradiation using SrTiO3 / CeO2 composite as the catalyst”, J. Hazard. Mater. 2008, 152, 1301-1308.

  139. S. Song, X. Xu, L. J. Xu, Z. Q. He*, H. P. Ying, J. M. Chen, B. Yan*, “Mineralization of CI reactive yellow 145 in aqueous solution by ultraviolet-enhanced ozonation”, Ind. Eng. Chem. Res. 2008, 47, 1386-1391.

  140. B. Yan*, C. Wang, “Photoluminescent properties of Dy3+-activated REAl3(BO3)4 (RE = Y, La, Gd) polycrystalline phosphors from hybrid precursors”, J. Alloys Compds. 2008, 462, 147-152.

  141. X. Z. Xiao, B. Yan*, “In-situ chemical co-precipitation composition of hybrid precursors and luminescence of Y1-xGdxNbO4: RE3+ (RE = Tb, Eu) micron crystalline phosphors”, J. Alloys Compds. 2008, 456, 447-451.

  142. J. H. Wu, B. Yan*, “Photoluminescence intensity of YxGd1-xVO4: Eu3+ dependence on hydrothermal synthesis time and variable ratio of Y/Gd”, J. Alloys Compds. 2008, 455, 485-488.

  143. X. Z. Xiao, B. Yan*, “Luminescence of rare earth ions activated YNb0.5M0.5O4 (M = P, V) phosphors by chemical co-precipitation composing hybrid precursors”, J. Alloys Compds. 2008, 448, 298-302.

  144. F. Lei, B. Yan*, H. H. Chen, “Solid-state synthesis, characterization and luminescent properties of Eu3+-doped gadolinium tungstate and molybdate phosphors: Gd(2-x)MO6:Eu3+x (M = W, Mo)”, Journal of Solid State Chemistry, 2008, 181, 2845-2851.

  145. Y. Li, B. Yan*, H. Yang, “Construction,characterization and photoluminescence of mesoporous hybrids containing europium (III) complexes covalently bonded to SBA-15 directly functionalized by modified beta-diketone”, J. Phys. Chem. C 2008, 112, 3959-3968.

  146. B. Yan*, X. F. Qiao,“Rare earth / inorganic / organic polymeric hybrid materials: molecular assembly, regular microstructure and photoluminescence”, J. Phys. Chem. B 2007, 111, 12362-12374.

  147. J. J. Wu, B. Yan*, “Sol-gel synthesis and photoluminescence of K2NiF4-type structure phosphors CaxSr1-xGdyY1-yAlO4: zEu3+ with hybrid precursors”, J. Alloys Compds. 2007, 441, 214-218.

  148. B. Yan*, X. Z. Xiao, “Novel YNbO4: RE3+ (RE = Sm, Dy, Er) microcrystalline phosphors: chemical co-precipitation synthesis from the hybrid precursor and photoluminescent properties”, J. Alloys Compds. 2007, 433, 251-255.

  149. X. Z. Xiao, B. Yan*, “Matrix-induced synthesis and photoluminescence of M2RENbO6: Eu3+ (M = Ca, Sr, Ba; RE = Y, Gd, La) phosphors by hybrid precursors”, J. Alloys Compds. 2007, 433, 246-250.

  150. J. J. Wu, B. Yan*, “Sol-gel composition of hybrid precursors to synthesize RExGd1-xAlO3: Eu3+ (RE = La, Y) phosphors”, J. Alloys Compds. 2007, 432, 293-297.

  151. B. Yan*, X. Q. Su, “Chemical co-precipitation synthesis and photoluminescence of LnPxV1-xO4: Dy3+ (Ln = Gd, La) derived from assembling hybrid precursors’, J. Alloys Compds. 2007, 431, 342-347.

  152. B. Yan*, H. H. Huang, “Matrix-inducing synthesis and luminescence of ZnSiO4: xTb3+ submicrometer phosphors derived from the sol-gel assembling of different multicomponent hybrid precursors”, J. Alloys Compds. 2007, 429, 338-342.

  153. X X. Z. Xiao, S. Xu, B. Yan*, “Photoluminescent properties of Eu3+, Tb3+ activated M3Ln(PO4)3 (M = Sr, Ca; Ln = Y, La, Gd ) phosphors derived from hybrid precursors”, J. Alloys Compds. 2007, 429, 255-259.

  154. S. Song, L. J. Xu, Z. Q. He, J. M. Chen, X. Z. Xiao, B. Yan*, “Mechanism of the Photocatalytic Degradation of C.I. Reactive Black 5 at pH 12.0 Using SrTiO3/CeO2 as the Catalyst”, Environ. Sci. Technol. 2007, 41, 5846-5853.

  155. X. Z. Xiao, B. Yan*, “Hybrid precursors synthesis and optical properties of LnNbO4: Bi3+ blue phosphors and Bi3+ sensitizing of on Dy3+’s luminescence in YNbO4 matrix’, J. Alloys Compds. 2006, 422, 252-257.

  156. X. Q. Su, B. Yan*, “Matrix-induced synthesis and photoluminescence of M3Ln(VO4)3: RE (M = Ca, Sr, Ba; Ln = Y, Gd; RE = Eu3+, Dy3+, Er3+) phosphors by hybrid precursors’, J. Alloys Compds. 2006, 421, 273-278.

  157. Q. M. Wang, B. Yan*, “A novel way to luminescent terbium molecular-scale hybrid materials: modified heterocyclic ligands covalently bonded with silica”, Cryst. Growth Des. 2005, 5, 497-503.

  158. X. Q. Su, B. Yan*, H. H. Huang, “In situ co-precipitation synthesis and luminescence of GdVO4: Eu3+ and YxGd1-xVO4: Eu3+ microcrystalline phosphors derived from the assembly of hybrid precursors”, J. Alloys Compds. 2005, 399, 251-255.

  159. B. Yan*, K. Zhou, “In situ sol-gel composition of inorganic/organic polymeric hybrid precursors to synthesize red-luminescent CaTiO3: Pr3+ and CaTi0.5Zr0.5O3: Pr3+ phosphors”, J. Alloys Compds. 2005, 398, 165-169.

  160. Q. M. Wang, B. Yan*, “Novel luminescent terbium molecular-based hybrids with modified meta aminobenzoic acid covalently bonded with silica”, J. Mater. Chem. 2004, 14, 2450-2454.

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