The oxonitridosilicates, also called sions (Si + O + N) or silicon-oxynitrides are inorganic ceramic compounds in which oxygen and nitrogen atoms are bound to a silicon atom.[1] A common variant also has aluminium replacing some silicon. They can be considered as silicates in which nitrogen partially replaces oxygen, or as nitridosilicates with oxygen partly replacing nitrogen.
Formation
editA possible way to make these compounds is to heat metal oxides or carbonates with silicon nitride and silica in a nitrogen atmosphere.[2]
Properties
editOxonitridosilicates have diverse structures. At the small scale silicon forms tetrahedral shapes surrounded by four oxygen or nitrogen atoms. With oxygen, one point of a tetrahedron can be bridged to another denoted O[2], or the oxygen can be a terminal atom denoted O[1]. With nitrogen, it can be shared in more ways: terminal N[1], bridged between two tetrahedra N[2], or even three or four: N[3], N[4]. With nitrogen, tetrahedra can be fused on an edge, or a point, whereas oxygen only connects tetrahedra at a vertex.[3]
The condensation ratio, denoted by K indicates how condensed the tetrahedra are. K is the number of silicon atoms divided by the sum of oxygen and nitrogen. For SiN48− or SIO24+ K is 1/4 and it increases to 1/2 for SiO2.[3]
Use
editOxonitridosilicates doped with europium have been used as phosphors in white LEDs, as they convert some blue light to other colours that can mix to white.[3]
Listing
edit| name | formula | crystal system |
space group |
unit cell | volume | phosphor
colour Eu2+ |
comments | ref |
|---|---|---|---|---|---|---|---|---|
| LiSiNO | [4] | |||||||
| Li3SiNO2 | [5] | |||||||
| Li6SiN2O2 | [6] | |||||||
| Li7SiN3O | Fm3m | a=4.6994 | [7] | |||||
| Li5SiNO3 | [4] | |||||||
| Na3SiNO2 | [5] | |||||||
| CaSi2O2N2 | [8] | |||||||
| Ca2.89Si2N1.76O4.24 Ca3Si2O4N2 |
cubic | Pa3 |
a = 15.0626 Å V = 3417.45 Å3 Z=24 |
green | colourless | [9][10] | ||
| SrSi2O2N2 | green | [8][11] | ||||||
| Li4Sr4[Si4O4N6]O | tetragonal | P42/nmc | a=7.4833, c = 9.8365 V=552.81 Z = 2 | orange | band gap 3.6 eV | [12] | ||
| Sr3Si13Al3O2N21 | orthorhombic | a = 9.037, b = 14.734, c = 7.464 | green | [13] | ||||
| Y4SiO7N2 | [14] | |||||||
| BaSi2O2N2 | bluish green | [15] | ||||||
| Ba3Si6O9N4 | bluish green | [16] | ||||||
| Ba3Si6O12N2 | trigonal | P3 | a = 7.5046 c = 6.4703 | green | ||||
| La5Si3O12N | hexagonal | P63/m | a=9.7051 c=7.2546 Z=1 | 591.76 | white UV>261 | [14] | ||
| La4SiO7N2 | monoclinic | P121/C1 | a=8.036 b=10.992 c=11.109 β=110.92 Z=4 | 916.75 | white UV>283 | [14] | ||
| LaSiO2N | hexagonal | P6c2 | a=7.310 c=9.550 V=441.95 Z=6 | white UV>263 | [14] | |||
| La3Si8O4N11 | orthorhombic | C2/c | a=15.850 b=4.9029 c=18.039 Z=4 | 1271.05 | white UV>243 | [14] | ||
| La3[SiON3]O | tetragonal | I4/mcm | a = 6.822, c = 11.074 Å, Z = 4 | [17] | ||||
| La16[Si8N22][SiON3]2 | triclinic | P1 | a = 5.718, b = 11.391, c = 13.435, α = 112.02, β = 90.19, γ = 90.58 Z=2 | 811.1 | [18] | |||
| Ce4[Si4O4N6]O | green-yellow | [1] | ||||||
| Ce3[SiON3]O | tetragonal | I4/mcm | a = 6.723, c = 11.069 Å, Z = 4 | dark red | [17] | |||
| Sr3Ce10Si18Al12O18N36 | [1] | |||||||
| Pr3[SiON3]O | tetragonal | I4/mcm | a = 6.6979, c = 11.005 Å, Z = 4 | [17] | ||||
| Pr4Si2O7N2 | [17] | |||||||
| Gd3[SiON3]O | tetragonal | I4/mcm | [17] | |||||
| Sr3Pr10Si18Al12O18N36 | [1] | |||||||
| Sr3Nd10Si18Al12O18N36 | [1] | |||||||
| Sr10Sm6Si30Al6O7N54 | [1] | |||||||
| EuSi2O2N2 | triclinic | P1 | a=7.095 b=7.246 c=7.256 α=88.69 β=84.77 γ=75.84 Z=4 | [8] | ||||
| ytterbium silicon oxynitride | Yb4Si2O7N2 | [19] |
References
edit- ^ a b c d e f Schnick, Wolfgang (December 2001). "Nitridosilicates, oxonitridosilicates (sions), and oxonitridoaluminosilicates (sialons)". International Journal of Inorganic Materials. 3 (8): 1267–1272. doi:10.1016/S1466-6049(01)00120-9.
- ^ Wang, Baochen; Liu, Yan-gai; Huang, Zhaohui; Fang, Minghao; Wu, Xiaowen (December 2017). "Discovery of novel solid solution Ca3Si3−x O3+x N4−2x : Eu2+ phosphors: structural evolution and photoluminescence tuning". Scientific Reports. 7 (1): 18103. Bibcode:2017NatSR...718103W. doi:10.1038/s41598-017-18319-5. PMC 5741754. PMID 29273765.
- ^ a b c Zeuner, Martin; Pagano, Sandro; Schnick, Wolfgang (16 August 2011). "Nitridosilicates and Oxonitridosilicates: From Ceramic Materials to Structural and Functional Diversity". Angewandte Chemie International Edition. 50 (34): 7754–7775. doi:10.1002/anie.201005755. PMID 21774043.
- ^ a b Podsiadło, S. (March 1987). "Formation and thermal decomposition of silicon oxynitride compounds II". Journal of Thermal Analysis. 32 (2): 445–449. doi:10.1007/BF01912696. ISSN 0368-4466. S2CID 198209083.
- ^ a b Podsiadlo, S. (January 1987). "Formation and thermal decomposition of silicon oxynitride compounds I". Journal of Thermal Analysis. 32 (1): 43–47. doi:10.1007/BF01914545. ISSN 0368-4466. S2CID 98040365.
- ^ Podsiadło, S. (May 1987). "Formation and thermal decomposition of silicon oxynitride compounds. Part III". Journal of Thermal Analysis. 32 (3): 771–775. doi:10.1007/BF01913762. ISSN 0368-4466. S2CID 96566883.
- ^ Casas-Cabanas, M.; Santner, H.; Palacín, M.R. (May 2014). "The Li–Si–(O)–N system revisited: Structural characterization of Li21Si3N11 and Li7SiN3O". Journal of Solid State Chemistry. 213: 152–157. Bibcode:2014JSSCh.213..152C. doi:10.1016/j.jssc.2014.02.022.
- ^ a b c Oeckler, O.; Stadler, F.; Schnick, W. (2006-12-01). "Real structure investigations on oxonitridosilicates MSi2O2N2 (M = Ca, Sr, Ba, Eu)". Acta Crystallographica Section A. 62 (a1): 202. Bibcode:2006AcCrA..62S.202O. doi:10.1107/S0108767306095973. ISSN 0108-7673.
- ^ Sharafat, Ali; Berastegui, Pedro; Esmaeilzadeh, Saeid; Eriksson, Lars; Grins, Jekabs (2011-11-15). "A cubic calcium oxynitrido-silicate, Ca 2.89 Si 2 N 1.76 O 4.24". Acta Crystallographica Section E. 67 (11): i66. doi:10.1107/S1600536811042607. ISSN 1600-5368. PMC 3246911. PMID 22219731.
- ^ Yi-Chen Chiu, Chien-Hao Huang, Te-Ju Lee, Wei-Ren Liu, Yao-Tsung Yeh, ShyueMing Jang, and Ru-Shi Liu (9 May 2011). "Eu2+-activated silicon-oxynitride Ca3Si2O4N2: a green-emitting phosphor for white LEDs". Optics Express. 19: A331-A339|issue=S3. doi:10.1364/OE.19.00A331. PMID 21643375.
{{cite journal}}: CS1 maint: multiple names: authors list (link) - ^ Bachmann, Volker; Jüstel, Thomas; Meijerink, Andries; Ronda, Cees; Schmidt, Peter J. (December 2006). "Luminescence properties of SrSi2O2N2 doped with divalent rare earth ions" (PDF). Journal of Luminescence. 121 (2): 441–449. Bibcode:2006JLum..121..441B. doi:10.1016/j.jlumin.2005.11.008. hdl:1874/20108. S2CID 250497499.
- ^ Niklaus, Robin; Neudert, Lukas; Stahl, Juliane; Schmidt, Peter J.; Schnick, Wolfgang (2018-11-19). "Orange-Emitting Li 4 Sr 4 [Si 4 O 4 N 6 ]O:Eu 2+ —a Layered Lithium Oxonitridosilicate Oxide". Inorganic Chemistry. 57 (22): 14304–14313. doi:10.1021/acs.inorgchem.8b02391. ISSN 0020-1669. PMID 30398336. S2CID 53222824.
- ^ Xie, Rong-Jun; Hirosaki, Naoto; Li, Yuanqiang; Takeda, Takashi (2010-06-21). "Rare-Earth Activated Nitride Phosphors: Synthesis, Luminescence and Applications". Materials. 3 (6): 3777–3793. Bibcode:2010Mate....3.3777X. doi:10.3390/ma3063777. ISSN 1996-1944. PMC 5521753.
- ^ a b c d e Dierre, Benjamin; Xie, Rong-Jun; Hirosaki, Naoto; Sekiguchi, T. (July 2007). "Blue emission of Ce 3+ in lanthanide silicon oxynitride phosphors". Journal of Materials Research. 22 (7): 1933–1941. Bibcode:2007JMatR..22.1933D. doi:10.1557/jmr.2007.0231. ISSN 0884-2914. S2CID 98199264.
- ^ Pan, Huayan; Luo, Dong; Wang, Le; Li, Yanghui (2015). "Electronic structure and luminescence properties of BaSi2O2N2:Eu2+ phosphor for white LEDs". Proceedings of the 2015 6th International Conference on Manufacturing Science and Engineering. Qingdao, China: Atlantis Press. pp. 690–695. doi:10.2991/icmse-15.2015.123. ISBN 978-94-6252-137-7.
- ^ Luo, Dong; Wang, Le; Li, Yang-Hui; Xu, Guo-Tang; Pan, Hua-Yan; Liang, Pei; Chen, Ru-Biao; Zhang, Hong (October 2014). "Preparation of Ba3Si6O9N4:Eu2+ phosphor and characterization of their luminescence properties". 2014 International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO). Taipei, Taiwan: IEEE. pp. 44–47. doi:10.1109/3M-NANO.2014.7057295. ISBN 978-1-4799-7923-3. S2CID 45735913.
- ^ a b c d e Kechele, Juliane A.; Schmolke, Christian; Lupart, Saskia; Schnick, Wolfgang (January 2010). "Ln 3 [SiON 3 ]O ( Ln = La, Ce, Pr) - Three Oxonitridosilicate Oxides with Crystal Structures Derived from the Anti-Perovskite Structure Type". Zeitschrift für anorganische und allgemeine Chemie. 636 (1): 176–182. doi:10.1002/zaac.200900274.
- ^ Schmolke, Christian; Lupart, Saskia; Schnick, Wolfgang (February 2009). "La16[Si8N22][SiON3]2 – A nitridosilicate with isolated, corner-sharing and edge-sharing tetrahedra". Solid State Sciences. 11 (2): 305–309. Bibcode:2009SSSci..11..305S. doi:10.1016/j.solidstatesciences.2008.08.008.
- ^ Nishimura, Toshiyuki; Mitomo, Mamoru; Suematsu, Hisayuki (January 1997). "High temperature strength of silicon nitride ceramics with ytterbium silicon oxynitride". Journal of Materials Research. 12 (1): 203–209. Bibcode:1997JMatR..12..203N. doi:10.1557/JMR.1997.0027. ISSN 0884-2914. S2CID 136571783.
