Top 10 similar words or synonyms for tloh

csno    0.737607

kbro    0.713586

rbno    0.702406

csoac    0.697444

csohlioh    0.695031

kbf    0.692577

csohnaoh    0.690330

nahf    0.690224

mgoh    0.689138

ercl    0.687664

Top 30 analogous words or synonyms for tloh

Article Example
Thallium(I) oxide Thallium(I) oxide is the inorganic compound of thallium and oxygen with the formula TlO in which thallium is in its +1 oxidation state. It is black and produces a basic yellow solution of thallium(I) hydroxide (TlOH) when dissolved in water. It is formed by heating solid TlOH or TlCO in the absence of air. Thallium oxide is used to make special high refractive index glass. Thallium oxide is a component of several high temperature superconductors. Thallium(I) oxide reacts with acids to make thallium(I) salts.
Thallium(I) hydroxide Thallium(I) hydroxide, also called thallous hydroxide, TlOH, is a hydroxide of thallium, with thallium in oxidation state +1. Thallous hydroxide is a strong base; it is changed to thallous ion, Tl, except in strongly basic conditions. Tl resembles an alkali metal ion, A, such as Li or K.
Boron group Thallium is used in its elemental form more often than the other boron-group elements. Uncompounded thallium is used in low-melting glasses, photoelectric cells, switches, mercury alloys for low-range glass thermometers, and thallium salts. It can be found in lamps and electronics, and is also used in myocardial imaging. The possibility of using thallium in semiconductors has been researched, and it is a known catalyst in organic synthesis. Thallium hydroxide (TlOH) is used mainly in the production of other thallium compounds. Thallium sulfate (TlSO) is an outstanding vermin-killer, and it is a principal component in some rat and mouse poisons. However, the United States and some European countries have banned the substance because of its high toxicity to humans. In other countries, though, the market for the substance is growing. TlSO is also used in optical systems.
Nihonium The simplest possible nihonium compound is the monohydride, NhH. The bonding is provided by the 7p electron of nihonium and the 1s electron of hydrogen. However, the SO interaction causes the binding energy of nihonium monohydride to be reduced by about 1 eV and the nihonium–hydrogen bond length to decrease as the bonding 7p orbital is relativistically contracted. This is exceptional in the 7p series of elements; all other MH (M = Fl, Mc, Lv, Ts, Og) molecules have relativistic expansion of the bond length instead of contraction. The analogous monofluoride (NhF) should also exist. Nihonium should also be able to form the trihydride (NhH), trifluoride (NhF), and trichloride (NhCl), with nihonium in the +3 oxidation state. Because the 6d electrons are involved in bonding instead of the 7s ones, these molecules are predicted to be T-shaped and not trigonal planar. Although the polyfluoride anion should be stable, the corresponding neutral fluoride NhF should be unstable, spontaneously decomposing into the trifluoride and elemental fluorine. Nihonium(I) is predicted to be more similar to silver(I) than thallium(I): the Nh ion is expected to more willingly bind anions, so that NhCl should be quite soluble in an excess of hydrochloric acid or in ammonia while TlCl is not. Additionally, in contrast to the strongly basic TlOH, nihonium(I) should instead form NhO, which would be weakly water-soluble and readily ammonia-soluble.