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Flerovium

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Flerovium,  114Fl
Ki-pún sèng-chit
Miâ, hû-hō flerovium, Fl
Flerovium tī chiu-kî-piáu lāi ê ūi-tì
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Copernicium (kòe-tō͘ kim-sio̍k)
Nihonium (hoà-ha̍k sèng-chit iáu boē hiáu)
Flerovium (pîn-kim-sio̍k)
Moscovium (hoà-ha̍k sèng-chit iáu boē hiáu)
Livermorium (hoà-ha̍k sèng-chit iáu boē hiáu)
Tennessine (hoà-ha̍k sèng-chit iáu boē hiáu)
Oganesson (hoà-ha̍k sèng-chit iáu boē hiáu)
Pb

Fl

(Uho)
NihoniumfleroviumMoscovium
Goân-chú-hoan 114
Goân-chú-liōng [289]
Goân-sò͘ lūi-pia̍t   āu-kòe-tō͘ kim-sio̍k
Cho̍k, hun-khu 14 cho̍k, p khu
Chiu-kî tē 7 chiu-kî
Tiān-chú pâi-lia̍t [Rn] 5f14 6d10 7s2 7p2 (predicted)[1]
per shell 2, 8, 18, 32, 32, 18, 4 (predicted)
Bu̍t-lí sèng-chit
Siòng solid (predicted)[1]
Iûⁿ-tiám 340 K ​(67 °C, ​160 °F) (predicted)[2]
Hut-tiám 420 K ​(147 °C, ​297 °F) (predicted)[2][3][4]
Bi̍t-tō͘  (sek-un) 14 g·cm−3 (predicted)[2]
Cheng-hoat-jia̍t 38 kJ·mol−1 (predicted)[2]
Goân-chú sèng-chit
Sng-hòa-sò͘ 0, 1, 2, 4, 6(predicted)[1][2][5]
Tiān-lī-lêng 1st: 823.9 kJ·mol−1 (predicted)[1]
2nd: 1601.6 kJ·mol−1 (predicted)[2]
3rd: 3367.3 kJ·mol−1 (predicted)[2]
(more)
Goân-chú pòaⁿ-kèng empirical: 180 pm (predicted)[1][2]
Kiōng-kè pòaⁿ-kèng 171–177 pm (extrapolated)[3]
Cha̍p-lio̍k
CAS teng-kì pian-hō 54085-16-4
Le̍k-sú
Hō-miâ after Flerov Laboratory of Nuclear Reactions (itself named after Georgy Flyorov)[6]
Hoat-hiān Joint Institute for Nuclear Research and Lawrence Livermore National Laboratory (1999)
Chòe ún-tēng ê tông-ūi-sò͘
Chú bûn-chiong: flerovium ê tông-ūi-sò͘
iso NA half-life DM DE (MeV) DP
289Fl syn 2.6 s α 9.82,9.48 285Cn
289mFl ? syn 2–23 s α 9.71 285mCn ?
288Fl syn 0.8 s α 9.94 284Cn
287Fl syn 0.48 s α 10.02 283Cn
287mFl ? syn 5.5 s α 10.29 283mCn ?
286Fl syn 0.13 s 40% α 10.19 282Cn
60% SF
285Fl[7][8] syn 125 ms α 10.41(5) 281Cn
284Fl[7][8] syn 2.5+1.8
−0.8
 ms
SF

Flerovium sī 1 ê hoà-ha̍k goân-sò͘. I ê goân-chú-hoan sī 114, hoà-ha̍k hû-hō sī Fl.

"Flerovium" sī ēng Georgy Flyorov ê miâ-jī khí--ê.

  1. 1.0 1.1 1.2 1.3 1.4 Hoffman, Darleane C.; Lee, Diana M.; Pershina, Valeria (2006). "Transactinides and the future elements". Chū Morss; Edelstein, Norman M.; Fuger, Jean. The Chemistry of the Actinide and Transactinide Elements (3rd pán.). Dordrecht, The Netherlands: Springer Science+Business Media. ISBN 1-4020-3555-1. 
  2. 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 Fricke, Burkhard (1975). "Superheavy elements: a prediction of their chemical and physical properties". Recent Impact of Physics on Inorganic Chemistry. 21: 89–144. doi:10.1007/BFb0116498. 4 October 2013 khòaⁿ--ê. 
  3. 3.0 3.1 Bonchev, Danail; Kamenska, Verginia (1981). "Predicting the Properties of the 113–120 Transactinide Elements". Journal of Physical Chemistry. American Chemical Society. 85 (9): 1177–1186. doi:10.1021/j150609a021. 
  4. Seaborg, G. T. "Transuranium element". Encyclopædia Britannica. 2010-03-16 khòaⁿ--ê. 
  5. Schwerdtfeger, Peter; Seth, Michael (2002). "Relativistic Quantum Chemistry of the Superheavy Elements. Closed-Shell Element 114 as a Case Study" (PDF). Journal of Nuclear and Radiochemical Sciences. 3 (1): 133–136. 12 September 2014 khòaⁿ--ê. 
  6. Pang-bô͘:Cite press
  7. 7.0 7.1 http://cyclotron.tamu.edu/she2015/assets/pdfs/presentations/Utyonkov_SHE_2015_TAMU.pdf
  8. 8.0 8.1 Utyonkov, V. K.; Brewer, N. T.; Oganessian, Yu. Ts.; Rykaczewski, K. P.; Abdullin, F. Sh.; Dmitriev, S. N.; Grzywacz, R. K.; Itkis, M. G.; Miernik, K.; Polyakov, A. N.; Roberto, J. B.; Sagaidak, R. N.; Shirokovsky, I. V.; Shumeiko, M. V.; Tsyganov, Yu. S.; Voinov, A. A.; Subbotin, V. G.; Sukhov, A. M.; Sabel'nikov, A. V.; Vostokin, G. K.; Hamilton, J. H.; Stoyer, M. A.; Strauss, S. Y. (15 September 2015). "Experiments on the synthesis of superheavy nuclei 284Fl and 285Fl in the 239,240Pu + 48Ca reactions". Physical Review C. 92 (3). doi:10.1103/PhysRevC.92.034609.