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Tennessine

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tennessine   117Ts
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Tennessine(mâ̤ hiēu dĕk-séng)
Oganesson(mâ̤ hiēu dĕk-séng)
Astatin

tennessine

(Usu)
Livermoritennessineoganesson
ngôi-guăng
poàn-kim-sio̍k (ê̤ṳ-cháik)[1]
gái-huóng
miàng-cê·hù-hô̤·sê̤ṳ-só tennessine (tennessine)·Ts·117
nguòng-só lôi-biék mâ̤ hiēu
m̄-koh khó-lêng sī āu-kòe-tō͘ kim-sio̍k[2][3]
cŭk·ciŭ-gĭ·kṳ̆ 17·7·p
nguòng-cṳ̄-liông [294]
diêng-cṳ̄ bà̤-buó [Rn] 5f14 6d10 7s2 7p5
2, 8, 18, 32, 32, 18, 7
Lĭk-sṳ̄
huák-hiêng Joint Institute for Nuclear Research kap Lawrence Livermore National Laboratory(2010 nièng)
ŭk-lī séng-cék
ŭk-tái gó-tā̤(ê̤ṳ-cháik)[4][5]
mĭk-dô̤ (ciék-gê̤ṳng sék-ŭng)
7.1–7.3 g·cm−3
iòng-diēng 623–823 K,350–550 °C,662–1022 °F
bé-diēng 883 K,610 °C,1130 °F
cĭng-ké-ák
nguòng-cṳ̄ séng-cék
iōng-huá-tái −1, +1, +3, +5
((ê̤ṳ-cháik)[1][4])
diêng-liê-nèng

dâ̤ 1 : {{{1st ionization energy}}} kJ·mol−1

dâ̤ 2: {{{2nd ionization energy}}} kJ·mol−1
nguòng-cṳ̄ buáng-géng 138 pm
gê̤ṳng-gá buáng-géng 156–157 pm
((extrapolated)[5])
gì-tă
CAS hô̤ 54101-14-3
có̤i ūng-diâng gì dùng-ôi-só


dùng-ôi-só hŭng-dô buáng-sŏi-gĭ huŏng-sék nèng-liôngMeV sāng-ŭk
294Ts[6] syn 51模板:Su ms α 10.81 290Mc
293Ts[7] syn 22模板:Su ms α 11.11, 11.00, 10.91 289Mc

Tennessine sê siŏh cṳ̄ng huá-hŏk nguòng-só. Nguòng-cṳ̄ sê̤ṳ-só sê 117, huá-hŏk hù-hô̤ sê Ts.

Huá-hŏk séng-cék

[Siŭ-gāi | Gāi nguòng-mā]

Éng-ê̤ṳng

[Siŭ-gāi | Gāi nguòng-mā]

Cié-chṳ̄

[Siŭ-gāi | Gāi nguòng-mā]

Chăng-kō̤ cṳ̆-lâiu

[Siŭ-gāi | Gāi nguòng-mā]
  1. 1.0 1.1 Fricke, B. Superheavy elements: a prediction of their chemical and physical properties. Recent Impact of Physics on Inorganic Chemistry. 1975, 21: 89–144 [4 October 2013]. doi:10.1007/BFb0116498. 
  2. Royal Society of Chemistry. Ununseptium. rsc.org. Royal Society of Chemistry. 2016. "A highly radioactive metal, of which only a few atoms have ever been made."  已經忽略未知參數|access-date= (幫助)
  3. GSI. Research Program – Highlights. superheavies.de. GSI. 14 December 2015 [10 June 2018]. (nguòng-sṳ̄ nô̤i-ṳ̀ng còng-dŏng diŏh 13 May 2020). "If this trend were followed, element 117 would likely be a rather volatile metal. Fully relativistic calculations agree with this expectation, however, they are in need of experimental confirmation."  已經忽略未知參數|access-date= (幫助)
  4. 4.0 4.1 Hoffman, D. C.; Lee, D. M.; Pershina, V. Transactinides and the future elements//In Morss; Edelstein, N. M.; Fuger, J. The Chemistry of the Actinide and Transactinide Elements 3rd. Springer Science+Business Media. 2006: 1652–1752. ISBN 1-4020-3555-1. 
  5. 5.0 5.1 Īng-ê̤ṳng chó̤-nguô: Ù-hâu gì <ref> biĕu-chiĕng; gó muôi dêng-ngiê miàng-cê sê B&K gì chăng-kō̤ ùng-hióng nó̤i-ṳ̀ng ùng-cê.
  6. Oganessian, Yu. Ts. et al. Experimental studies of the 249Bk + 48Ca reaction including decay properties and excitation function for isotopes of element 117, and discovery of the new isotope 277Mt. Physical Review C. 2013, 87 (5): 054621. Bibcode:2013PhRvC..87e4621O. doi:10.1103/PhysRevC.87.054621. 
  7. Khuyagbaatar, J.; Yakushev, A.; Düllmann, Ch. E. dēng. 48Ca+249Bk Fusion Reaction Leading to Element Z=117: Long-Lived α-Decaying 270Db and Discovery of 266Lr. Physical Review Letters. 2014, 112 (17): 172501. doi:10.1103/PhysRevLett.112.172501.