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Tennessine

Phiên-siá lièn-kiet

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Tennessine, ₁₁₇Ts

ngoi-kôn

poàn-kim-sio̍k(ū-chhek)^[1]

Kî-pún sin-sit

Miàng,fù-ho

Tennessine, Ts

ngoi-hìn

poàn-kim-sio̍k(ū-chhek)^[1]

Tennessine chhaichû-khì-péu ke vi-chi

Khiâng (sûng-ngièn-chṳ́ fî-kîm-su̍k)

Hoi (hî-yù hi-thí)

Lithium (kán-kîm-su̍k)

Beryllium (kán-thú kîm-su̍k)

Phìn (lui-kîm-su̍k)

Than (tô-ngièn-chṳ́ fî-kîm-su̍k)

Tham (sûng-ngièn-chṳ́ fî-kîm-su̍k)

Yông (sûng-ngièn-chṳ́ fî-kîm-su̍k)

Fuk (sûng-ngièn-chṳ́ fî-kîm-su̍k)

Nái (hî-yù hi-thí)

Na̍p (kán-kîm-su̍k)

Magnesium (kán-thú kîm-su̍k)

Lî (heu-ko-thu kîm-su̍k)

Si̍t (lui-kîm-su̍k)

Lìn (tô-ngièn-chṳ́ fî-kîm-su̍k)

Liù-vòng (tô-ngièn-chṳ́ fî-kîm-su̍k)

Liu̍k (sûng-ngièn-chṳ́ fî-kîm-su̍k)

Argon (hî-yù hi-thí)

Kap (kán-kîm-su̍k)

Koi (kán-thú kîm-su̍k)

Scandium (ko-thu kîm-su̍k)

Titanium (ko-thu kîm-su̍k)

Vanadium (ko-thu kîm-su̍k)

Chromium (ko-thu kîm-su̍k)

Manganese (ko-thu kîm-su̍k)

Thiet (ko-thu kîm-su̍k)

Cobalt (ko-thu kîm-su̍k)

Nickel (ko-thu kîm-su̍k)

Thùng (ko-thu kîm-su̍k)

Â-yèn (ko-thu kîm-su̍k)

Gallium (heu-ko-thu kîm-su̍k)

Germanium (lui-kîm-su̍k)

Phî (lui-kîm-su̍k)

Selenium (tô-ngièn-chṳ́ fî-kîm-su̍k)

Chhiu (sûng-ngièn-chṳ́ fî-kîm-su̍k)

Krypton (hî-yù hi-thí)

Rubidium (kán-kîm-su̍k)

Strontium (kán-thú kîm-su̍k)

Yttrium (ko-thu kîm-su̍k)

Zirconium (ko-thu kîm-su̍k)

Niobium (ko-thu kîm-su̍k)

Molybdenum (ko-thu kîm-su̍k)

Technetium (ko-thu kîm-su̍k)

Ruthenium (ko-thu kîm-su̍k)

Rhodium (ko-thu kîm-su̍k)

Palladium (ko-thu kîm-su̍k)

Ngiùn (ko-thu kîm-su̍k)

Cadmium (ko-thu kîm-su̍k)

Indium (heu-ko-thu kîm-su̍k)

Siak (heu-ko-thu kîm-su̍k)

Antimony (lui-kîm-su̍k)

Tellurium (lui-kîm-su̍k)

Tién (sûng-ngièn-chṳ́ fî-kîm-su̍k)

Xenon (hî-yù hi-thí)

Caesium (kán-kîm-su̍k)

Barium (kán-thú kîm-su̍k)

Lanthanum (lanthanum-hi)

Cerium (lanthanum-hi)

Praseodymium (lanthanum-hi)

Neodymium (lanthanum-hi)

Promethium (lanthanum-hi)

Samarium (lanthanum-hi)

Europium (lanthanum-hi)

Gadolinium (lanthanum-hi)

Terbium (lanthanum-hi)

Dysprosium (lanthanum-hi)

Holmium (lanthanum-hi)

Erbium (lanthanum-hi)

Thulium (lanthanum-hi)

Ytterbium (lanthanum-hi)

Lutetium (lanthanum-hi)

Hafnium (ko-thu kîm-su̍k)

Tantalum (ko-thu kîm-su̍k)

Tungsten (ko-thu kîm-su̍k)

Rhenium (ko-thu kîm-su̍k)

Osmium (ko-thu kîm-su̍k)

Iridium (ko-thu kîm-su̍k)

Pha̍k-kîm (ko-thu kîm-su̍k)

Kîm (ko-thu kîm-su̍k)

Súi-ngiùn (ko-thu kîm-su̍k)

Thallium (heu-ko-thu kîm-su̍k)

Yèn (heu-ko-thu kîm-su̍k)

Bismuth (heu-ko-thu kîm-su̍k)

Polonium (heu-ko-thu kîm-su̍k)

Astatine (lui-kîm-su̍k)

Radon (hî-yù hi-thí)

Francium (kán-kîm-su̍k)

Radium (kán-thú kîm-su̍k)

Actinium (actinium-hi)

Thorium (actinium-hi)

Protactinium (actinium-hi)

Uranium (actinium-hi)

Neptunium (actinium-hi)

Plutonium (actinium-hi)

Americium (actinium-hi)

Curium (actinium-hi)

Berkelium (actinium-hi)

Californium (actinium-hi)

Einsteinium (actinium-hi)

Fermium (actinium-hi)

Mendelevium (actinium-hi)

Nobelium (actinium-hi)

Lawrencium (actinium-hi)

Rutherfordium (ko-thu kîm-su̍k)

Dubnium (ko-thu kîm-su̍k)

Seaborgium (ko-thu kîm-su̍k)

Bohrium (ko-thu kîm-su̍k)

Hassium (ko-thu kîm-su̍k)

Meitnerium (unknown chemical properties)

Darmstadtium (unknown chemical properties)

Roentgenium (unknown chemical properties)

Copernicium (ko-thu kîm-su̍k)

Nihonium (unknown chemical properties)

Flerovium (heu-ko-thu kîm-su̍k)

Moscovium (unknown chemical properties)

Livermorium (unknown chemical properties)

Tennessine (unknown chemical properties)

Oganesson (unknown chemical properties)

At
↑
Ts
↓
(Usu)

livermorium ←Tennessine →oganesson

ngièn-chṳ́ sì-sú

117

ngièn-chṳ́-liòng

[294]

ngièn-su lui-phe̍t

hàn-màng khok-thin, m̄-koh khó-lêng sīāu-kòe-tō͘ kim-sio̍k^[2]^[3]

Chhu̍k,fûn-khî

17 chhu̍k, p-block

thien-chṳ́ phài-lie̍t

[Rn] 5f¹⁴ 6d¹⁰ 7s² 7p⁵ (ū-chhek)^[4]

per shell

2, 8, 18, 32, 32, 18, 7 (ū-chhek)

vu̍t-lî sin-chṳt

ku-thí (yi-chhet)^[4]^[5]

623–823 K (350–550 °C, 662–1022 °F) (ū-chhek)^[4]

883 K (610 °C, 1130 °F) (ū-chhek)^[4]

Me̍t-thu near Sit-vûn

7.1–7.3 g·cm⁻³ (extrapolated)^[5]

Ngièn-chṳ́ sin-chṳt

−1,+1,+3, +5 (ū-chhek)^[1]^[4]

1st: 742.9 kJ·mol⁻¹ (ū-chhek)^[4]
2nd: 1785.0–1920.1 kJ·mol⁻¹ (extrapolated)^[5]

Ngièn-chṳ́ pan-kang

empirical: 138 pm (ū-chhek)^[5]

Khiung-ka pan-kang

156–157 pm (extrapolated)^[5]

Miscellanea

CAS Registry Number

54101-14-3

Le̍k-sú

Hí-miàng

Fat-hien

Joint Institute for Nuclear Research kapLawrence Livermore National Laboratory (2010)

Chui vún-thin ke thùng-vi-su

Chú vùn-chông:Tennessine ke thùng-vi-su

iso	NA	half-life	DM	DE (MeV)	DP
²⁹⁴Ts^[6]	syn	51⁺⁴¹ ₋₁₆ ms	α	10.81	²⁹⁰Mc
²⁹³Ts^[7]	syn	22⁺⁸ ₋₄ ms	α	11.11, 11.00, 10.91	²⁸⁹Mc

Tennessine (Hon-ngî:tián) he yit-chúngfa-ho̍k ngièn-su, fa-ho̍k fù-ho vìTs, ngièn-chṳ́ su-muk he117.

Chhâm-kháu chṳ̂-liau

[phiên-siá |kói ngièn-sṳ́-mâ]

↑^1.0^1.1Fricke, B. (1975)."Superheavy elements: a prediction of their chemical and physical properties".Recent Impact of Physics on Inorganic Chemistry21: 89–144.doi:10.1007/BFb0116498.4 October 2013 chhà-khon.
↑Royal Society of Chemistry (2016)."Ununseptium".rsc.org. Royal Society of Chemistry.9 November 2016 chhà-khon.A highly radioactive metal, of which only a few atoms have ever been made.
↑GSI (14 December 2015)."Research Program – Highlights".superheavies.de. GSI. Archived fromthe original on 13 May 2020.9 November 2016 chhà-khon.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.
↑^4.0^4.1^4.2^4.3^4.4^4.5Hoffman, D. C.; Lee, D. M.; Pershina, V. (2006). "Transactinides and the future elements". In Morss; Edelstein, N. M.; Fuger, J.The Chemistry of the Actinide and Transactinide Elements (3rd pán.).Springer Science+Business Media. pp. 1652–1752.ISBN 1-4020-3555-1.
↑^5.0^5.1^5.2^5.3^5.4Bonchev, D.; Kamenska, V. (1981)."Predicting the Properties of the 113–120 Transactinide Elements".Journal of Physical Chemistry85 (9): 1177–1186.doi:10.1021/j150609a021.
↑Oganessian, Yu. Ts.; et al. (2013). "Experimental studies of the²⁴⁹Bk +⁴⁸Ca reaction including decay properties and excitation function for isotopes of element 117, and discovery of the new isotope²⁷⁷Mt".Physical Review C87 (5): 054621.Bibcode:2013PhRvC..87e4621O.doi:10.1103/PhysRevC.87.054621.
↑Khuyagbaatar, J.; Yakushev, A.; Düllmann, Ch. E.; et al. (2014)."⁴⁸Ca+²⁴⁹Bk Fusion Reaction Leading to Element Z=117: Long-Lived α-Decaying²⁷⁰Db and Discovery of²⁶⁶Lr".Physical Review Letters112 (17): 172501.doi:10.1103/PhysRevLett.112.172501.

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