Arsenidostannate: Difference between revisions
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'''Arsenidostanates''' are chemical compounds that contain anions with arsenic bonded to tin. They are in the category of tetrelarsenides, pnictidostancates, or tetrelpnictides. |
'''Arsenidostanates''' are chemical compounds that contain anions with arsenic bonded to tin. They are in the category of tetrelarsenides, pnictidostancates, or tetrelpnictides. |
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They are distinct from arsenide stannides such as [[palarstanide]], ({{chem2|Pd8(Sn,As)3}}) where the cation charge exceeds that on the tin or arsenic.<ref>{{ |
They are distinct from arsenide stannides such as [[palarstanide]], ({{chem2|Pd8(Sn,As)3}}) where the cation charge exceeds that on the tin or arsenic.<ref>{{Cite web |title=Palarstanide Mineral Data |url=http://webmineral.com/data/Palarstanide.shtml |access-date=8 December 2021 |website=webmineral.com}}</ref> Other minerals that contain arsenic and tin are [[erniggliite]]<ref>{{Cite web |title=Erniggliite Mineral Data |url=http://webmineral.com/data/Erniggliite.shtml |access-date=8 December 2021 |website=webmineral.com}}</ref> and [[coiraite]].<ref>{{Cite web |title=Coiraite Mineral Data |url=http://webmineral.com/data/Coiraite.shtml |access-date=8 December 2021 |website=webmineral.com}}</ref> |
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|<ref>{{Cite journal| |
|<ref>{{Cite journal |last=Lee |first=Kathleen |last2=Kaseman |first2=Derrick |last3=Sen |first3=Sabyasachi |last4=Hung |first4=Ivan |last5=Gan |first5=Zhehong |last6=Gerke |first6=Birgit |last7=Pöttgen |first7=Rainer |last8=Feygenson |first8=Mikhail |last9=Neuefeind |first9=Jörg |last10=Lebedev |first10=Oleg I. |last11=Kovnir |first11=Kirill |date=2015-03-18 |title=Intricate Short-Range Ordering and Strongly Anisotropic Transport Properties of Li 1– x Sn 2+ x As 2 |url=https://pubs.acs.org/doi/10.1021/jacs.5b00237 |journal=Journal of the American Chemical Society |language=en |volume=137 |issue=10 |pages=3622–3630 |doi=10.1021/jacs.5b00237 |issn=0002-7863 |osti=1334418 |pmid=25702752}}</ref> |
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|metallic grey |
|metallic grey |
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|<ref>{{Cite journal| |
|<ref>{{Cite journal |last=Asbrand |first=Matthias |last2=Eisenmann |first2=Brigitte |date=1993 |title=Na2[SnAs2], the first Zintl phase with a [SnAs2] framework based on adamantane analogous [Sn4As10] units |journal=Zeitschrift für Naturforschung B |volume=48 |pages=452–456 |doi=10.1515/znb-1993-0409 |issn=0932-0776 |s2cid=95169843 |doi-access=free}}</ref> |
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|metallic; layers |
|metallic; layers |
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|<ref>{{Cite journal| |
|<ref>{{Cite journal |last=Arguilla |first=Maxx Q. |last2=Katoch |first2=Jyoti |last3=Krymowski |first3=Kevin |last4=Cultrara |first4=Nicholas D. |last5=Xu |first5=Jinsong |last6=Xi |first6=Xiaoxiang |last7=Hanks |first7=Amanda |last8=Jiang |first8=Shishi |last9=Ross |first9=Richard D. |last10=Koch |first10=Roland J. |last11=Ulstrup |first11=Søren |date=2016-10-25 |title=NaSn 2 As 2 : An Exfoliatable Layered van der Waals Zintl Phase |url=https://pubs.acs.org/doi/10.1021/acsnano.6b04609 |journal=ACS Nano |language=en |volume=10 |issue=10 |pages=9500–9508 |arxiv=1710.09059 |doi=10.1021/acsnano.6b04609 |issn=1936-0851 |pmid=27700035 |s2cid=20747874}}</ref> |
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|[[band gap]] 0.50 eV |
|[[band gap]] 0.50 eV |
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|<ref name=":0">{{ |
|<ref name=":0">{{Cite journal |last=Khatun |first=Mansura |last2=Stoyko |first2=Stanislav S. |last3=Mar |first3=Arthur |date=June 2016 |title=Ternary arsenides ATt3As3 (A=K, Rb; Tt=Ge, Sn) with layered structures |journal=Journal of Solid State Chemistry |volume=238 |pages=229–235 |bibcode=2016JSSCh.238..229K |doi=10.1016/j.jssc.2016.03.035}}</ref> |
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|<ref>{{Cite journal| |
|<ref>{{Cite journal |last=Eisenmann |first=Brigitte |last2=Jordan |first2=Hanna |last3=Schäfer |first3=Herbert |date=November 1985 |title=Ca5Sn2As6, das erste Inoarsenidostannat(IV) |url=https://onlinelibrary.wiley.com/doi/10.1002/zaac.19855301108 |journal=Zeitschrift für anorganische und allgemeine Chemie |language=de |volume=530 |issue=11 |pages=74–78 |doi=10.1002/zaac.19855301108 |issn=0044-2313}}</ref> |
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|melt 1185K; band gap 0.9 eV |
|melt 1185K; band gap 0.9 eV |
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|<ref name=":2">{{Cite journal| |
|<ref name=":2">{{Cite journal |last=Liu |first=Xiao-Cun |last2=Pan |first2=Ming-Yan |last3=Li |first3=Xin |last4=Xia |first4=Sheng-Qing |last5=Tao |first5=Xu-Tang |date=2014 |title=Synthesis, polymorphism, and electronic structures of Sr 3 Sn 2 As 4 |url=http://xlink.rsc.org/?DOI=C4QI00106K |journal=Inorg. Chem. Front. |language=en |volume=1 |issue=9 |pages=689–694 |doi=10.1039/C4QI00106K |issn=2052-1553}}</ref> |
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|<ref name=":1">{{ |
|<ref name=":1">{{Cite journal |last=Liu |first=Xiao-Cun |last2=Pan |first2=Ming-Yan |last3=Xia |first3=Sheng-Qing |last4=Tao |first4=Xu-Tang |date=21 September 2015 |title=Sr 14 Sn 3 As 12 and Eu 14 Sn 3 As 12 : Enantiomorph-like Zintl Compounds |journal=Inorganic Chemistry |volume=54 |issue=18 |pages=8875–8877 |doi=10.1021/acs.inorgchem.5b01145 |pmid=26361335}}</ref> |
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|<ref>{{Cite journal| |
|<ref>{{Cite journal |last=Lam |first=Robert |last2=Mar |first2=Arthur |date=May 2001 |title=The metallic Zintl phase Ba3Sn4As6 |url=https://linkinghub.elsevier.com/retrieve/pii/S1293255801011554 |journal=Solid State Sciences |language=en |volume=3 |issue=4 |pages=503–512 |bibcode=2001SSSci...3..503L |doi=10.1016/S1293-2558(01)01155-4}}</ref> |
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|<ref>{{Cite journal| |
|<ref>{{Cite journal |last=Wu |first=Hanlin |last2=Li |first2=Sheng |last3=Wang |first3=Xiqu |last4=Kwon |first4=Sunah |last5=Liu |first5=Wenhao |last6=Ofenstein |first6=Gareth A. |last7=Kim |first7=Moon J. |last8=Lv |first8=Bing |date=February 2022 |title=New layered quaternary BaCu6Sn2As4−x and BaCu6Sn2P4−x phases: Crystal growth and physical properties |url=https://linkinghub.elsevier.com/retrieve/pii/S0925838821035210 |journal=Journal of Alloys and Compounds |language=en |volume=892 |pages=162111 |doi=10.1016/j.jallcom.2021.162111 |s2cid=239061015}}</ref> |
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|5.316 |
|5.316 |
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|black; Si<sub>4</sub>As<sub>10</sub> units; band gap 1.0 eV |
|black; Si<sub>4</sub>As<sub>10</sub> units; band gap 1.0 eV |
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|<ref>{{Cite journal| |
|<ref>{{Cite journal |last=Liu |first=Xiao-Cun |last2=Lin |first2=Na |last3=Wang |first3=Jian |last4=Pan |first4=Ming-Yan |last5=Zhao |first5=Xian |last6=Tao |first6=Xu-Tang |last7=Xia |first7=Sheng-Qing |date=2013-10-21 |title=Ba 13 Si 6 Sn 8 As 22 : A Quaternary Zintl Phase Containing Adamantane-Like [Si 4 As 10 ] Clusters |url=https://pubs.acs.org/doi/10.1021/ic402023z |journal=Inorganic Chemistry |language=en |volume=52 |issue=20 |pages=11836–11842 |doi=10.1021/ic402023z |issn=0020-1669 |pmid=24079277}}</ref> |
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|<ref>{{Cite journal| |
|<ref>{{Cite journal |last=Pakhira |first=Santanu |last2=Tanatar |first2=M. A. |last3=Heitmann |first3=Thomas |last4=Vaknin |first4=David |last5=Johnston |first5=D. C. |date=2021-11-19 |title=A -type antiferromagnetic order and magnetic phase diagram of the trigonal Eu spin- 7 2 triangular-lattice compound EuSn 2 As 2 |url=https://link.aps.org/doi/10.1103/PhysRevB.104.174427 |journal=Physical Review B |language=en |volume=104 |issue=17 |pages=174427 |arxiv=2106.10519 |bibcode=2021PhRvB.104q4427P |doi=10.1103/PhysRevB.104.174427 |issn=2469-9950 |s2cid=235489681}}</ref> |
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|6.599 |
|6.599 |
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|silver; band gap 0.04 eV; [[Ferromagnetism|ferromagnetic]] below 15K; negative [[colossal magnetoresistance]] |
|silver; band gap 0.04 eV; [[Ferromagnetism|ferromagnetic]] below 15K; negative [[colossal magnetoresistance]] |
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|<ref>{{Cite journal| |
|<ref>{{Cite journal |last=Devlin |first=Kasey P. |last2=Kazem |first2=Nasrin |last3=Zaikina |first3=Julia V. |last4=Cooley |first4=Joya A. |last5=Badger |first5=Jackson R. |last6=Fettinger |first6=James C. |last7=Taufour |first7=Valentin |last8=Kauzlarich |first8=Susan M. |date=2018-10-23 |title=Eu 11 Zn 4 Sn 2 As 12 : A Ferromagnetic Zintl Semiconductor with a Layered Structure Featuring Extended Zn 4 As 6 Sheets and Ethane-like Sn 2 As 6 Units |url=https://pubs.acs.org/doi/10.1021/acs.chemmater.8b02749 |journal=Chemistry of Materials |language=en |volume=30 |issue=20 |pages=7067–7076 |doi=10.1021/acs.chemmater.8b02749 |issn=0897-4756 |s2cid=105572581}}</ref> |
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Latest revision as of 14:01, 13 December 2024
Arsenidostanates are chemical compounds that contain anions with arsenic bonded to tin. They are in the category of tetrelarsenides, pnictidostancates, or tetrelpnictides.
They are distinct from arsenide stannides such as palarstanide, (Pd8(Sn,As)3) where the cation charge exceeds that on the tin or arsenic.[1] Other minerals that contain arsenic and tin are erniggliite[2] and coiraite.[3]
| name | formula | formula
weight |
crystal
system |
space
group |
unit cell | volume | density | comments | ref |
|---|---|---|---|---|---|---|---|---|---|
| Li1–xSn2+xAs2, 0.2 < x < 0.4 | trigonal | R3m | a=3.991-4.0244 c=25.592-25.632 Z=3 | 353.6-358.9 | [4] | ||||
| Na2SnAs2 | I41/acd | a=14.166, c=21.191, Z = 32 | metallic grey | [5] | |||||
| NaSn2As2 | rhombohedral | R3m | a=4.000 c=27.562 | metallic; layers | [6] | ||||
| KSn3As3 | orthorhombic | Pnma | Z=4 | band gap 0.50 eV | [7] | ||||
| RbSn3As3 | orthorhombic | Pnma | a=10.321, b=4.0917, c=19.570 | [7] | |||||
| Ca5Sn2As6 | orthorhombic | Pbam | a = 13.643, b = 11.830, c = 4.121 Z=2 | [8] | |||||
| α-Sr3Sn2As4 | orthorhombic | Cmca | a = 25.798, b = 12.888, c = 19.124, Z = 24 | 6358.8 | melt 1185K; band gap 0.9 eV | [9] | |||
| β-Sr3Sn2As4 | monoclinic | P21/c | a = 7.705, b = 19.118, c = 7.688, β = 112.003°, Z = 4 | 1049.9 | dec>800K; band gap 0.9 eV | [9] | |||
| Sr14Sn3As12 | trigonal | R3 | Z=3 | [10] | |||||
| Ba3Sn4As6 | monoclinic | P21/n | a=8.637, b=18.354, c=9.721, β=90.05°, Z=4 | [11] | |||||
| BaCu6Sn2As4−x | tetragonal | I4/mmm | a = 4.164, c = 24.088 | [12] | |||||
| Ba13Si6Sn8As22 | 4551.72 | tetragonal | I42m | a = 14.4857, c = 13.5506 Z=2 | 2843.4 | 5.316 | black; Si4As10 units; band gap 1.0 eV | [13] | |
| EuSn2As2 | trigonal | [14] | |||||||
| Eu14Sn3As12 | trigonal | R3 | Z=3 | [10] | |||||
| Eu11Zn4Sn2As12 | 3069.46 | monoclinic | C2/c | a = 7.5679, b = 13.0883, c = 31.305, β = 94.8444 Z=4 | 3089.7 | 6.599 | silver; band gap 0.04 eV; ferromagnetic below 15K; negative colossal magnetoresistance | [15] |
References
[edit]- ^ "Palarstanide Mineral Data". webmineral.com. Retrieved 8 December 2021.
- ^ "Erniggliite Mineral Data". webmineral.com. Retrieved 8 December 2021.
- ^ "Coiraite Mineral Data". webmineral.com. Retrieved 8 December 2021.
- ^ Lee, Kathleen; Kaseman, Derrick; Sen, Sabyasachi; Hung, Ivan; Gan, Zhehong; Gerke, Birgit; Pöttgen, Rainer; Feygenson, Mikhail; Neuefeind, Jörg; Lebedev, Oleg I.; Kovnir, Kirill (2015-03-18). "Intricate Short-Range Ordering and Strongly Anisotropic Transport Properties of Li 1– x Sn 2+ x As 2". Journal of the American Chemical Society. 137 (10): 3622–3630. doi:10.1021/jacs.5b00237. ISSN 0002-7863. OSTI 1334418. PMID 25702752.
- ^ Asbrand, Matthias; Eisenmann, Brigitte (1993). "Na2[SnAs2], the first Zintl phase with a [SnAs2] framework based on adamantane analogous [Sn4As10] units". Zeitschrift für Naturforschung B. 48: 452–456. doi:10.1515/znb-1993-0409. ISSN 0932-0776. S2CID 95169843.
- ^ Arguilla, Maxx Q.; Katoch, Jyoti; Krymowski, Kevin; Cultrara, Nicholas D.; Xu, Jinsong; Xi, Xiaoxiang; Hanks, Amanda; Jiang, Shishi; Ross, Richard D.; Koch, Roland J.; Ulstrup, Søren (2016-10-25). "NaSn 2 As 2 : An Exfoliatable Layered van der Waals Zintl Phase". ACS Nano. 10 (10): 9500–9508. arXiv:1710.09059. doi:10.1021/acsnano.6b04609. ISSN 1936-0851. PMID 27700035. S2CID 20747874.
- ^ a b Khatun, Mansura; Stoyko, Stanislav S.; Mar, Arthur (June 2016). "Ternary arsenides ATt3As3 (A=K, Rb; Tt=Ge, Sn) with layered structures". Journal of Solid State Chemistry. 238: 229–235. Bibcode:2016JSSCh.238..229K. doi:10.1016/j.jssc.2016.03.035.
- ^ Eisenmann, Brigitte; Jordan, Hanna; Schäfer, Herbert (November 1985). "Ca5Sn2As6, das erste Inoarsenidostannat(IV)". Zeitschrift für anorganische und allgemeine Chemie (in German). 530 (11): 74–78. doi:10.1002/zaac.19855301108. ISSN 0044-2313.
- ^ a b Liu, Xiao-Cun; Pan, Ming-Yan; Li, Xin; Xia, Sheng-Qing; Tao, Xu-Tang (2014). "Synthesis, polymorphism, and electronic structures of Sr 3 Sn 2 As 4". Inorg. Chem. Front. 1 (9): 689–694. doi:10.1039/C4QI00106K. ISSN 2052-1553.
- ^ a b Liu, Xiao-Cun; Pan, Ming-Yan; Xia, Sheng-Qing; Tao, Xu-Tang (21 September 2015). "Sr 14 Sn 3 As 12 and Eu 14 Sn 3 As 12 : Enantiomorph-like Zintl Compounds". Inorganic Chemistry. 54 (18): 8875–8877. doi:10.1021/acs.inorgchem.5b01145. PMID 26361335.
- ^ Lam, Robert; Mar, Arthur (May 2001). "The metallic Zintl phase Ba3Sn4As6". Solid State Sciences. 3 (4): 503–512. Bibcode:2001SSSci...3..503L. doi:10.1016/S1293-2558(01)01155-4.
- ^ Wu, Hanlin; Li, Sheng; Wang, Xiqu; Kwon, Sunah; Liu, Wenhao; Ofenstein, Gareth A.; Kim, Moon J.; Lv, Bing (February 2022). "New layered quaternary BaCu6Sn2As4−x and BaCu6Sn2P4−x phases: Crystal growth and physical properties". Journal of Alloys and Compounds. 892: 162111. doi:10.1016/j.jallcom.2021.162111. S2CID 239061015.
- ^ Liu, Xiao-Cun; Lin, Na; Wang, Jian; Pan, Ming-Yan; Zhao, Xian; Tao, Xu-Tang; Xia, Sheng-Qing (2013-10-21). "Ba 13 Si 6 Sn 8 As 22 : A Quaternary Zintl Phase Containing Adamantane-Like [Si 4 As 10 ] Clusters". Inorganic Chemistry. 52 (20): 11836–11842. doi:10.1021/ic402023z. ISSN 0020-1669. PMID 24079277.
- ^ Pakhira, Santanu; Tanatar, M. A.; Heitmann, Thomas; Vaknin, David; Johnston, D. C. (2021-11-19). "A -type antiferromagnetic order and magnetic phase diagram of the trigonal Eu spin- 7 2 triangular-lattice compound EuSn 2 As 2". Physical Review B. 104 (17): 174427. arXiv:2106.10519. Bibcode:2021PhRvB.104q4427P. doi:10.1103/PhysRevB.104.174427. ISSN 2469-9950. S2CID 235489681.
- ^ Devlin, Kasey P.; Kazem, Nasrin; Zaikina, Julia V.; Cooley, Joya A.; Badger, Jackson R.; Fettinger, James C.; Taufour, Valentin; Kauzlarich, Susan M. (2018-10-23). "Eu 11 Zn 4 Sn 2 As 12 : A Ferromagnetic Zintl Semiconductor with a Layered Structure Featuring Extended Zn 4 As 6 Sheets and Ethane-like Sn 2 As 6 Units". Chemistry of Materials. 30 (20): 7067–7076. doi:10.1021/acs.chemmater.8b02749. ISSN 0897-4756. S2CID 105572581.