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Fluoroiodate

May 08, 2024

A fluorooxoiodate or fluoroiodate is a chemical compound or ion derived from iodate, by substituting some of the oxygen by fluorine. They have iodine in the +5 oxidation state. The iodine atoms have a stereochemically active lone-pair of electrons. Many are non-centrosymmetric, and are second harmonic generators (SHG) of intense light shining through them. They are under investigation as materials for non-linear optics, such as for generating ultraviolet light from visible or infrared lasers.[1]

Different ions include [IOF4], [IO2F2], [IO3F]2−, and [I2O5F2]2−.

They are distinct from the fluoride iodates which are mixed anion compounds that do not have fluorine-iodine bonds.[1]

Properties edit

Fluoroiodates are transparent in visible, longer wave ultraviolet and some of the infrared electromagnetic bands.[1]

Compared to iodate, the I-O bonds are shorter, and I-F bonds are longer in fluoroiodates. The I-F bond is about 0.2 Å longer than the I-O bond. The fluorine atoms repel each other in [IO2F2] and are almost opposite each other. The ∠OIF angle is close to 90° and the oxygen atoms ∠OFO are at about 102°,[2] so they resemble an octahedral arrangement, with two adjacent positions deleted.[1]

List edit

formula crystal space group unit cell volume density band

gap eV

SHG

× KDP

1064 nm

comment reference
NH4IO2F2 orthorhombic Pca21 a=8.639 b=6.166 c=8.629 Z=4 459.7 4.53 1.2 [2]
(NH4)3(IO2F2)3·H2O orthorhombic Pnma a=15.102 b=12.685 c=7.369 Z=4 1411.8 4.55 no [2]
[C(NH2)3]+[IF2O2] triclinic P1 a = 6.6890 b = 10.2880 c = 10.30.92 α = 105.447 β = 108.568 γ = 91.051° Z=4 644.08 2.650 4.81 explosive; birefringence Δn = 0.110 [3][4]
(C(NH2)3)2(I2O5F)(IO3)(H2O) monoclinic P21/c a=7.4388 b=19.2679 c=11.0753 β=106.289° Z=4 1523.70 4.49 birefringence Δn = 0.068 [4]
NaIO2F2 orthorhombic Cmcm a=6.929 b=7.274 c=7.350 Z=4 370.42 0 [5]
KIO2F2 orthorhombic Pca21 a=8.3943 b=5.9792 c=8.4468 Z=4 423.95 0 ferroelastic; when compressed on 001 axis IO2F2 units rotate with abc transforming to cba; [5][6][7]
CoIO3F monoclinic P21/n a=4.9954 b=5.2110 c=12.5179 β=95.347° [8]
NiIO3F monoclinic P21/n [8]
ZnIO3F monoclinic P21/m 4.2 0.00 birefringence 0.219 at 546 nm [1]
[GaF(H2O)][IO3F] orthorhombic Pca21 a=13.954 b=6.9261 c=4.7629 4.34 10 laser damage threshold 298.40 MW cm−2; decompose 300 °C; dipole moment density: 0.0908 D Å−3 [9]
NaGaI3O9F monoclinic P21/c _a=14.120 b=4.9149 c=13.63 β=112.968° Z=4 871.0 4.853 4.27 0 [Ga2(IO3F)2(IO3)4]2− layers sandwiching Na+; birefringence Δnexp ~ 0.203 at 1064 nm [10]
RbIO2F2 orthorhombic Pca21 a=8.567 b=6.151 c=8.652 Z=4 455.92 4.2 4 [5]
SrI2O5F2 monoclinic P21/c a=10.462 b=7.272 c=8.306 β=109.699° Z=4 594.9 3.68 0 [11]
Sr4O(IO3)3(I3O7F3)BF4 R3c a=9.7216 c=38.759 absorption band at 250 nm; decompose 380 °C [12]
CdIO3F P212121 4.22 6.2 [1]
Rb2MoO2F3(IO2F2) orthorhombic Cmc21 a 11.806 b 10.128 c 7.6661 3.77 5 [1][13]
CsIO2F2 orthorhombic Pca21 a=8.781 b=6.377 c=8.868 Z=4 496.58 4.5 3 [5]
Cs3(IO2F2)3•H2O Pnma 3.37 0 [1]
Cs(IO2F2)2•H2O•H3O monoclinic P21/c 2.77 0 [1]
CsIO4 Pnma 0 [1]
Cs2VOF4(IO2F2) orthorhombic Cmc21 a=12.188 b=10.349 c=7.779 Z=4 981.2 4.100 2.88 5 yellow at 1064 nm [14]
Cs2MoO2F3(IO2F2) orthorhombic Cmc21 a =12.2153 b =10.4656 c =7.8560 3.43 4.5 [1][13]
BaIO3F monoclinic P21/c 4.32 0 [15]
Ba(IO2F2)2 monoclinic P21/c a=10.747 b=7.161 c=9.086 β=93.748° Z=4 697.7 3.99 0 UV cut off 230 nm [11]
BaI2O5F2 monoclinic P21/c a=10.750 b=7.599 c=8.598 β=109.753° birefringence Δn= 0.174 at 1064 nm [16]
BaIO2F3 orthorhombic Cmca a=6.334 b=6.343 c=23.300 4.27 0 birefringence Δn=0.133 at 1064 nm [16]
Ba2[GaF5(IO3F)] monoclinic P21/c a=7.5065 b=7.4160 c=14.5932 β=100.363° birefringence Δn=0.068 at 550 nm; UV edge 230 nm; transparent 0.34–11.9 μm [17]
CaCe(IO3)3(IO3F)F orthorhombic Pna21 a=11.068 b=18.15 c=6.0301 Z=4 1211.3 5.033 2,72 5 pale-yellow; birefringence 0.071 at 1064 nm SHG 5×KDP at 1064 nm [18]
Rb2WO2F3(IO2F2) orthorhombic Cmc21 a=11.726 b=10.188 c=7.666 4.42 [19]
Cs2WO2F3(IO2F2) orthorhombic Cmc21 a=12.1122 b=10.6192 c =7.8333 4.29 [19]
Pb4O(IO3)3(I3O7F3)BF4 R3c a =9.8184 c =38.867 absorption band at 283 nm; decompose 300 °C [12]
KBi2(IO3)2F5 monoclinic P21 a=5.687 b = 5.864 c = 14.815 β=100.095º Z = 2 486.5 6.157 colourless [20]
RbBi2(IO3)2F5 monoclinic P21 a=5.7347 b = 5.9095 c = 15.117 β=100.263º Z = 2 506.20 6.221 colourless [20]
CsBi2(IO3)2F5 monoclinic P21 a=5.750 b = 5.864 c = 15.640 β=100.509º Z = 2 523.8 6.313 colourless [20]

References edit

  1. ^ a b c d e f g h i j k Gao, Dong; Wu, Hongping; Hu, Zhanggui; Wang, Jiyang; Wu, Yicheng; Yu, Hongwei (January 2023). "Recent advances in F-containing iodate nonlinear optical materials". Chinese Journal of Structural Chemistry. 42 (1): 100014. doi:10.1016/j.cjsc.2023.100014. S2CID 255888212.
  2. ^ a b c Huang, Jianlong; Guo, Fengjiao; Guo, Zhiyong; Chen, Jianbang; Dai, Bin; Yu, Feng (2022-08-01). "NH 4 IO 2 F 2 and (NH 4 ) 3 (IO 2 F 2 ) 3 ·H 2 O: A Series of Ammonium-Containing Fluoroiodates with Wide Band Gaps". Inorganic Chemistry. 61 (30): 11803–11810. doi:10.1021/acs.inorgchem.2c01540. ISSN 0020-1669. PMID 35860841. S2CID 250731650.
  3. ^ Fischer, Dennis; Klapötke, Thomas M.; Stierstorfer, Jörg (May 2011). "Synthesis and Characterization of Guanidinium Difluoroiodate, [C(NH2)3]+[IF2O2]- and its Evaluation as an Ingredient in Agent Defeat Weapons‡". Zeitschrift für anorganische und allgemeine Chemie. 637 (6): 660–665. doi:10.1002/zaac.201100052.
  4. ^ a b Cui, Juhui; Wang, Shibin; Tudi, Abudukadi; Gai, Minqiang; Yang, Zhihua; Pan, Shilie (2023-12-22). "(C(NH 2 ) 3 ) 2 (I 2 O 5 F)(IO 3 )(H 2 O) and C(NH 2 ) 3 IO 2 F 2 : Two Guanidine Fluorooxoiodates with Wide Band Gap and Large Birefringence". Inorganic Chemistry. doi:10.1021/acs.inorgchem.3c03551. ISSN 0020-1669. PMID 38131323. S2CID 266468595.
  5. ^ a b c d Wang, Shibin; Zhang, Jie; Chen, Jianbang; Han, Peng; Lei, Na; Huang, Xuchu (2023). "Enhancement of birefringence and refractive index dispersion optimization from iodates to fluorooxoiodates". New Journal of Chemistry. 47 (26): 12145–12151. doi:10.1039/D3NJ01908J. S2CID 258852807.
  6. ^ Helmholz, Lindsay; Rogers, M. T. (June 1940). "The Crystal Structure of Potassium Fluoroiodate, KIO 2 F 2". Journal of the American Chemical Society. 62 (6): 1537–1542. doi:10.1021/ja01863a058. ISSN 0002-7863.
  7. ^ Abrahams, S. C.; Bernstein, J. L. (1976-04-15). "Ferroelastic KIO2F2: Crystal structure and ferroelastic transformation". The Journal of Chemical Physics. 64 (8): 3254–3260. Bibcode:1976JChPh..64.3254A. doi:10.1063/1.432666. ISSN 0021-9606.
  8. ^ a b Liu, Hang; Wang, Yanhong; Zhou, Yadong; Li, Shuang; Dou, Yaling; Wang, Tao; Lu, Hongcheng (2022-11-07). "MIO 3 F (M = Co and Ni): Magnetic Iodate Fluorides with Zigzag Chains". Inorganic Chemistry. 61 (44): 17838–17847. doi:10.1021/acs.inorgchem.2c03167. ISSN 0020-1669. PMID 36285503. S2CID 253119337.
  9. ^ Huang, Qian-Ming; Hu, Chun-Li; Yang, Bing-Ping; Fang, Zhi; Lin, Yuan; Chen, Jin; Li, Bing-Xuan; Mao, Jiang-Gao (2021). "[GaF(H 2 O)][IO 3 F]: a promising NLO material obtained by anisotropic polycation substitution". Chemical Science. 12 (27): 9333–9338. doi:10.1039/D1SC01401C. ISSN 2041-6520. PMC 8278931. PMID 34349903.
  10. ^ Wang, Dandan; Gong, Pifu; Zhang, Xinyuan; Lin, Zheshuai; Hu, Zhanggui; Wu, Yicheng (2021). "NaGaI 3 O 9 F: a new alkali metal gallium iodate combined with IO 3 − and IO 3 F 2− units". Dalton Transactions. 50 (33): 11562–11567. doi:10.1039/D1DT02122B. ISSN 1477-9226. PMID 34351353. S2CID 236927523.
  11. ^ a b Gai, Minqiang; Tong, Tinghao; Wang, Ying; Yang, Zhihua; Pan, Shilie (2020-07-14). "New Alkaline-Earth Metal Fluoroiodates Exhibiting Large Birefringence and Short Ultraviolet Cutoff Edge with Highly Polarizable (IO 3 F) 2– Units". Chemistry of Materials. 32 (13): 5723–5728. doi:10.1021/acs.chemmater.0c01452. ISSN 0897-4756. S2CID 225712371.
  12. ^ a b Xu, Yiyi; Zhou, Yuqiao; Lin, Chensheng; Li, Bingxuan; Hao, Xia; Ye, Ning; Luo, Min (2021-12-01). "M 4 O(IO 3 ) 3 (I 3 O 7 F 3 )BF 4 (M = Pb, Sr): Promising Nonlinear Optical Materials Featuring the Unprecedented Windmill-Shaped [I 3 O 7 F 3 ] 2– Polyfluoroiodate Anion". Crystal Growth & Design. 21 (12): 7098–7103. doi:10.1021/acs.cgd.1c00992. ISSN 1528-7483. S2CID 244426909.
  13. ^ a b Hu, Yilei; Jiang, Xingxing; Wu, Chao; Huang, Zhipeng; Lin, Zheshuai; Humphrey, Mark G.; Zhang, Chi (2021-07-27). "A 2 MoO 2 F 3 (IO 2 F 2 ) ( A = Rb, Cs): Strong Nonlinear Optical Responses and Enlarged Band Gaps through Fluorine Incorporation". Chemistry of Materials. 33 (14): 5700–5708. doi:10.1021/acs.chemmater.1c01434. ISSN 0897-4756. S2CID 237721401.
  14. ^ Ding, Mengmeng; Wu, Hongping; Hu, Zhanggui; Wang, Jiyang; Wu, Yicheng; Yu, Hongwei (2022). "Cs 2 VOF 4 (IO 2 F 2 ): Rationally designing a noncentrosymmetric early-transition-metal fluoroiodate". Journal of Materials Chemistry C. 10 (34): 12197–12201. doi:10.1039/D2TC02489F. ISSN 2050-7526. S2CID 251185610.
  15. ^ Okrasinski, S.; Jost, R.; Rakshapal, R.; Mitra, G. (January 1975). "Preparation and properties of barium monofluorotrioxoiodate(V), BaIO3F". Inorganica Chimica Acta. 12 (1): 247–249. doi:10.1016/S0020-1693(00)89867-9.
  16. ^ a b Zhu, Liang; Gai, Minqiang; Jin, Wenqi; Yang, Yun; Yang, Zhihua; Pan, Shilie (2021). "Barium fluoroiodate crystals with a large band gap and birefringence". Inorganic Chemistry Frontiers. 8 (12): 3127–3133. doi:10.1039/D1QI00383F. ISSN 2052-1553. S2CID 236277200.
  17. ^ Wang, Yu-Hang; Li, Fu-Ying; Jiao, Dong-Xue; Wei, Qi; Wei, Li; Yang, Guo-Yu (2023-10-17). "Optically Anisotropic Mixed-Metal Fluoroiodate Ba 2 [GaF 5 (IO 3 F)] with a Wide Optical Transparent Window and a Moderate Birefringence". Inorganic Chemistry. 62 (43): 17691–17696. doi:10.1021/acs.inorgchem.3c02213. ISSN 0020-1669. S2CID 264168584.
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  19. ^ a b Hu, Yilei; Jiang, Xingxing; Wu, Tianhui; Xue, Yanyan; Wu, Chao; Huang, Zhipeng; Lin, Zheshuai; Xu, Jun; Humphrey, Mark G.; Zhang, Chi (2022). "Wide bandgaps and strong SHG responses of hetero-oxyfluorides by dual-fluorination-directed bandgap engineering". Chemical Science. 13 (35): 10260–10266. doi:10.1039/D2SC02137D. ISSN 2041-6520. PMC 9473499. PMID 36277635.
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May 08, 2024
fluoroiodate, fluorooxoiodate, fluoroiodate, chemical, compound, derived, from, iodate, substituting, some, oxygen, fluorine, they, have, iodine, oxidation, state, iodine, atoms, have, stereochemically, active, lone, pair, electrons, many, centrosymmetric, sec. A fluorooxoiodate or fluoroiodate is a chemical compound or ion derived from iodate by substituting some of the oxygen by fluorine They have iodine in the 5 oxidation state The iodine atoms have a stereochemically active lone pair of electrons Many are non centrosymmetric and are second harmonic generators SHG of intense light shining through them They are under investigation as materials for non linear optics such as for generating ultraviolet light from visible or infrared lasers 1 Different ions include IOF4 IO2F2 IO3F 2 and I2O5F2 2 They are distinct from the fluoride iodates which are mixed anion compounds that do not have fluorine iodine bonds 1 Properties editFluoroiodates are transparent in visible longer wave ultraviolet and some of the infrared electromagnetic bands 1 Compared to iodate the I O bonds are shorter and I F bonds are longer in fluoroiodates The I F bond is about 0 2 A longer than the I O bond The fluorine atoms repel each other in IO2F2 and are almost opposite each other The OIF angle is close to 90 and the oxygen atoms OFO are at about 102 2 so they resemble an octahedral arrangement with two adjacent positions deleted 1 List editformula crystal space group unit cell volume density band gap eV SHG KDP1064 nm comment reference NH4IO2F2 orthorhombic Pca21 a 8 639 b 6 166 c 8 629 Z 4 459 7 4 53 1 2 2 NH4 3 IO2F2 3 H2O orthorhombic Pnma a 15 102 b 12 685 c 7 369 Z 4 1411 8 4 55 no 2 C NH2 3 IF2O2 triclinic P1 a 6 6890 b 10 2880 c 10 30 92 a 105 447 b 108 568 g 91 051 Z 4 644 08 2 650 4 81 explosive birefringence Dn 0 110 3 4 C NH2 3 2 I2O5F IO3 H2O monoclinic P21 c a 7 4388 b 19 2679 c 11 0753 b 106 289 Z 4 1523 70 4 49 birefringence Dn 0 068 4 NaIO2F2 orthorhombic Cmcm a 6 929 b 7 274 c 7 350 Z 4 370 42 0 5 KIO2F2 orthorhombic Pca21 a 8 3943 b 5 9792 c 8 4468 Z 4 423 95 0 ferroelastic when compressed on 001 axis IO2F2 units rotate with abc transforming to cba 5 6 7 CoIO3F monoclinic P21 n a 4 9954 b 5 2110 c 12 5179 b 95 347 8 NiIO3F monoclinic P21 n 8 ZnIO3F monoclinic P21 m 4 2 0 00 birefringence 0 219 at 546 nm 1 GaF H2O IO3F orthorhombic Pca21 a 13 954 b 6 9261 c 4 7629 4 34 10 laser damage threshold 298 40 MW cm 2 decompose 300 C dipole moment density 0 0908 D A 3 9 NaGaI3O9F monoclinic P21 c a 14 120 b 4 9149 c 13 63 b 112 968 Z 4 871 0 4 853 4 27 0 Ga2 IO3F 2 IO3 4 2 layers sandwiching Na birefringence Dnexp 0 203 at 1064 nm 10 RbIO2F2 orthorhombic Pca21 a 8 567 b 6 151 c 8 652 Z 4 455 92 4 2 4 5 SrI2O5F2 monoclinic P21 c a 10 462 b 7 272 c 8 306 b 109 699 Z 4 594 9 3 68 0 11 Sr4O IO3 3 I3O7F3 BF4 R3c a 9 7216 c 38 759 absorption band at 250 nm decompose 380 C 12 CdIO3F P212121 4 22 6 2 1 Rb2MoO2F3 IO2F2 orthorhombic Cmc21 a 11 806 b 10 128 c 7 6661 3 77 5 1 13 CsIO2F2 orthorhombic Pca21 a 8 781 b 6 377 c 8 868 Z 4 496 58 4 5 3 5 Cs3 IO2F2 3 H2O Pnma 3 37 0 1 Cs IO2F2 2 H2O H3O monoclinic P21 c 2 77 0 1 CsIO4 Pnma 0 1 Cs2VOF4 IO2F2 orthorhombic Cmc21 a 12 188 b 10 349 c 7 779 Z 4 981 2 4 100 2 88 5 yellow at 1064 nm 14 Cs2MoO2F3 IO2F2 orthorhombic Cmc21 a 12 2153 b 10 4656 c 7 8560 3 43 4 5 1 13 BaIO3F monoclinic P21 c 4 32 0 15 Ba IO2F2 2 monoclinic P21 c a 10 747 b 7 161 c 9 086 b 93 748 Z 4 697 7 3 99 0 UV cut off 230 nm 11 BaI2O5F2 monoclinic P21 c a 10 750 b 7 599 c 8 598 b 109 753 birefringence Dn 0 174 at 1064 nm 16 BaIO2F3 orthorhombic Cmca a 6 334 b 6 343 c 23 300 4 27 0 birefringence Dn 0 133 at 1064 nm 16 Ba2 GaF5 IO3F monoclinic P21 c a 7 5065 b 7 4160 c 14 5932 b 100 363 birefringence Dn 0 068 at 550 nm UV edge 230 nm transparent 0 34 11 9 mm 17 CaCe IO3 3 IO3F F orthorhombic Pna21 a 11 068 b 18 15 c 6 0301 Z 4 1211 3 5 033 2 72 5 pale yellow birefringence 0 071 at 1064 nm SHG 5 KDP at 1064 nm 18 Rb2WO2F3 IO2F2 orthorhombic Cmc21 a 11 726 b 10 188 c 7 666 4 42 19 Cs2WO2F3 IO2F2 orthorhombic Cmc21 a 12 1122 b 10 6192 c 7 8333 4 29 19 Pb4O IO3 3 I3O7F3 BF4 R3c a 9 8184 c 38 867 absorption band at 283 nm decompose 300 C 12 KBi2 IO3 2F5 monoclinic P21 a 5 687 b 5 864 c 14 815 b 100 095º Z 2 486 5 6 157 colourless 20 RbBi2 IO3 2F5 monoclinic P21 a 5 7347 b 5 9095 c 15 117 b 100 263º Z 2 506 20 6 221 colourless 20 CsBi2 IO3 2F5 monoclinic P21 a 5 750 b 5 864 c 15 640 b 100 509º Z 2 523 8 6 313 colourless 20 References edit a b c d e f g h i j k Gao Dong Wu Hongping Hu Zhanggui Wang Jiyang Wu Yicheng Yu Hongwei January 2023 Recent advances in F containing iodate nonlinear optical materials Chinese Journal of Structural Chemistry 42 1 100014 doi 10 1016 j cjsc 2023 100014 S2CID 255888212 a b c Huang Jianlong Guo Fengjiao Guo Zhiyong Chen Jianbang Dai Bin Yu Feng 2022 08 01 NH 4 IO 2 F 2 and NH 4 3 IO 2 F 2 3 H 2 O A Series of Ammonium Containing Fluoroiodates with Wide Band Gaps Inorganic Chemistry 61 30 11803 11810 doi 10 1021 acs inorgchem 2c01540 ISSN 0020 1669 PMID 35860841 S2CID 250731650 Fischer Dennis Klapotke Thomas M Stierstorfer Jorg May 2011 Synthesis and Characterization of Guanidinium Difluoroiodate C NH2 3 IF2O2 and its Evaluation as an Ingredient in Agent Defeat Weapons Zeitschrift fur anorganische und allgemeine Chemie 637 6 660 665 doi 10 1002 zaac 201100052 a b Cui Juhui Wang Shibin Tudi Abudukadi Gai Minqiang Yang Zhihua Pan Shilie 2023 12 22 C NH 2 3 2 I 2 O 5 F IO 3 H 2 O and C NH 2 3 IO 2 F 2 Two Guanidine Fluorooxoiodates with Wide Band Gap and Large Birefringence Inorganic Chemistry doi 10 1021 acs inorgchem 3c03551 ISSN 0020 1669 PMID 38131323 S2CID 266468595 a b c d Wang Shibin Zhang Jie Chen Jianbang Han Peng Lei Na Huang Xuchu 2023 Enhancement of birefringence and refractive index dispersion optimization from iodates to fluorooxoiodates New Journal of Chemistry 47 26 12145 12151 doi 10 1039 D3NJ01908J S2CID 258852807 Helmholz Lindsay Rogers M T June 1940 The Crystal Structure of Potassium Fluoroiodate KIO 2 F 2 Journal of the American Chemical Society 62 6 1537 1542 doi 10 1021 ja01863a058 ISSN 0002 7863 Abrahams S C Bernstein J L 1976 04 15 Ferroelastic KIO2F2 Crystal structure and ferroelastic transformation The Journal of Chemical Physics 64 8 3254 3260 Bibcode 1976JChPh 64 3254A doi 10 1063 1 432666 ISSN 0021 9606 a b Liu Hang Wang Yanhong Zhou Yadong Li Shuang Dou Yaling Wang Tao Lu Hongcheng 2022 11 07 MIO 3 F M Co and Ni Magnetic Iodate Fluorides with Zigzag Chains Inorganic Chemistry 61 44 17838 17847 doi 10 1021 acs inorgchem 2c03167 ISSN 0020 1669 PMID 36285503 S2CID 253119337 Huang Qian Ming Hu Chun Li Yang Bing Ping Fang Zhi Lin Yuan Chen Jin Li Bing Xuan Mao Jiang Gao 2021 GaF H 2 O IO 3 F a promising NLO material obtained by anisotropic polycation substitution Chemical Science 12 27 9333 9338 doi 10 1039 D1SC01401C ISSN 2041 6520 PMC 8278931 PMID 34349903 Wang Dandan Gong Pifu Zhang Xinyuan Lin Zheshuai Hu Zhanggui Wu Yicheng 2021 NaGaI 3 O 9 F a new alkali metal gallium iodate combined with IO 3 and IO 3 F 2 units Dalton Transactions 50 33 11562 11567 doi 10 1039 D1DT02122B ISSN 1477 9226 PMID 34351353 S2CID 236927523 a b Gai Minqiang Tong Tinghao Wang Ying Yang Zhihua Pan Shilie 2020 07 14 New Alkaline Earth Metal Fluoroiodates Exhibiting Large Birefringence and Short Ultraviolet Cutoff Edge with Highly Polarizable IO 3 F 2 Units Chemistry of Materials 32 13 5723 5728 doi 10 1021 acs chemmater 0c01452 ISSN 0897 4756 S2CID 225712371 a b Xu Yiyi Zhou Yuqiao Lin Chensheng Li Bingxuan Hao Xia Ye Ning Luo Min 2021 12 01 M 4 O IO 3 3 I 3 O 7 F 3 BF 4 M Pb Sr Promising Nonlinear Optical Materials Featuring the Unprecedented Windmill Shaped I 3 O 7 F 3 2 Polyfluoroiodate Anion Crystal Growth amp Design 21 12 7098 7103 doi 10 1021 acs cgd 1c00992 ISSN 1528 7483 S2CID 244426909 a b Hu Yilei Jiang Xingxing Wu Chao Huang Zhipeng Lin Zheshuai Humphrey Mark G Zhang Chi 2021 07 27 A 2 MoO 2 F 3 IO 2 F 2 A Rb Cs Strong Nonlinear Optical Responses and Enlarged Band Gaps through Fluorine Incorporation Chemistry of Materials 33 14 5700 5708 doi 10 1021 acs chemmater 1c01434 ISSN 0897 4756 S2CID 237721401 Ding Mengmeng Wu Hongping Hu Zhanggui Wang Jiyang Wu Yicheng Yu Hongwei 2022 Cs 2 VOF 4 IO 2 F 2 Rationally designing a noncentrosymmetric early transition metal fluoroiodate Journal of Materials Chemistry C 10 34 12197 12201 doi 10 1039 D2TC02489F ISSN 2050 7526 S2CID 251185610 Okrasinski S Jost R Rakshapal R Mitra G January 1975 Preparation and properties of barium monofluorotrioxoiodate V BaIO3F Inorganica Chimica Acta 12 1 247 249 doi 10 1016 S0020 1693 00 89867 9 a b Zhu Liang Gai Minqiang Jin Wenqi Yang Yun Yang Zhihua Pan Shilie 2021 Barium fluoroiodate crystals with a large band gap and birefringence Inorganic Chemistry Frontiers 8 12 3127 3133 doi 10 1039 D1QI00383F ISSN 2052 1553 S2CID 236277200 Wang Yu Hang Li Fu Ying Jiao Dong Xue Wei Qi Wei Li Yang Guo Yu 2023 10 17 Optically Anisotropic Mixed Metal Fluoroiodate Ba 2 GaF 5 IO 3 F with a Wide Optical Transparent Window and a Moderate Birefringence Inorganic Chemistry 62 43 17691 17696 doi 10 1021 acs inorgchem 3c02213 ISSN 0020 1669 S2CID 264168584 Ma Nan Hu Chun Li Chen Jin Fang Zhi Huang Yu Li Bing Xuan Mao Jiang Gao 2022 CaCe IO 3 3 IO 3 F F a promising nonlinear optical material containing both IO 3 and IO 3 F 2 anions Inorganic Chemistry Frontiers 9 21 5478 5485 doi 10 1039 D2QI01720B ISSN 2052 1553 S2CID 252232612 a b Hu Yilei Jiang Xingxing Wu Tianhui Xue Yanyan Wu Chao Huang Zhipeng Lin Zheshuai Xu Jun Humphrey Mark G Zhang Chi 2022 Wide bandgaps and strong SHG responses of hetero oxyfluorides by dual fluorination directed bandgap engineering Chemical Science 13 35 10260 10266 doi 10 1039 D2SC02137D ISSN 2041 6520 PMC 9473499 PMID 36277635 a b c Liu Hongming Wu Qi Jiang Xingxing Lin Zheshuai Meng Xianggao Chen Xingguo Qin Jingui 2017 08 01 ABi 2 IO 3 2 F 5 A K Rb and Cs A Combination of Halide and Oxide Anionic Units To Create a Large Second Harmonic Generation Response with a Wide Bandgap Angewandte Chemie 129 32 9620 9624 Bibcode 2017AngCh 129 9620L doi 10 1002 ange 201705672 Retrieved from https en wikipedia org w index php title Fluoroiodate amp oldid 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