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Chemical element with atomic number 96 (Cm)
seen in many curium compounds. In compounds, curium usually has valence +3 and sometimes +4; the +3 valence is predominant in solutions. Curium readily oxidizes
Curium
Curium (Cm) usually forms compounds in the +3 oxidation state, although compounds with curium in the +4, +5 and +6 oxidation states are also known. Curium
Curium_compounds
Chemical compound
Curium(III) oxide is a compound composed of curium and oxygen with the chemical formula Cm2O3. It is a crystalline solid with a unit cell that contains
Curium(III)_oxide
Chemical compound
Curium nitride is a binary inorganic compound of curium and nitrogen with the chemical formula CmN. Curium nitride can be prepared by carbothermic nitridation
Curium_nitride
Chemical compound
Curium(IV) fluoride is an inorganic chemical compound, a salt of curium and fluorine with the chemical formula CmF4. It is reported that the compound
Curium(IV)_fluoride
Chemical compound
Curium hexafluoride is an inorganic chemical compound of curium and fluorine with the chemical formula CmF6. It is still supposed to be a hypothetical
Curium_hexafluoride
Chemical compound
Curium oxalate is an organic chemical compound with the chemical formula Cm2(C2O4)3. This is a curium salt of oxalic acid. Curium oxalate can be obtained
Curium_oxalate
Chemical compound
Curium(III) iodide is a salt with the formula CmI3. Since all isotopes of curium are only artificially produced, the compound has no natural occurrence
Curium(III)_iodide
Chemical compound
Curium(IV) oxide is an inorganic chemical compound of curium and oxygen with the chemical formula CmO2. Since all isotopes of curium are man-made, the
Curium(IV)_oxide
Chemical compound
Curium(III) fluoride or curium trifluoride is the chemical compound composed of curium and fluorine with the formula CmF3. It is a white, nearly insoluble
Curium(III)_fluoride
Index of chemical compounds with the same name
Curium fluoride may refer to: Curium(III) fluoride (Curium trifluoride), CmF3 Curium(IV) fluoride (Curium tetrafluoride), CmF4 Curium(VI) fluoride (Curium
Curium_fluoride
Chemical compound
Curium hydroxide Cm(OH)3 is a radioactive compound first discovered in measurable quantities in 1947. It is composed of a single curium atom and three
Curium(III)_hydroxide
Chemical element with atomic number 17 (Cl)
manufacture of organic compounds, and 18% in the manufacture of inorganic chlorine compounds. About 15,000 chlorine compounds are used commercially. The
Chlorine
Chemical element with atomic number 3 (Li)
alkyl halides. Many other lithium compounds are used as reagents to prepare organic compounds. Some popular compounds include lithium aluminium hydride
Lithium
Chemical element with atomic number 19 (K)
for some ion-binding antibiotics. Potassium forms many binary compounds, i.e., compounds of potassium and one other element. The inventory is so extensive
Potassium
Chemical element with atomic number 50 (Sn)
(Sn(C4H9)3H). These compounds release transient tributyl tin radicals, which are rare examples of compounds of tin(III). Organotin compounds, sometimes called
Tin
Chemical element with atomic number 78 (Pt)
probably the most important platinum compound, as it serves as the precursor for many other platinum compounds. By itself, it has various applications
Platinum
Chemical element with atomic number 98 (Cf)
(then the University of California Radiation Laboratory) by bombarding curium with alpha particles (helium-4 ions). It is an actinide element, the sixth
Californium
Chemical element with atomic number 15 (P)
organic compounds containing the phosphate ion PO3−4 as a functional group. These include DNA, RNA, ATP, and phospholipids, complex compounds fundamental
Phosphorus
Chemical element with atomic number 95 (Am)
in the transuranic series, it was discovered fourth, after the heavier curium. The discovery was kept secret and released to the public only in November
Americium
Chemical element with atomic number 74 (W)
number 74. It is a metal found naturally on Earth almost exclusively in compounds with other elements. It was identified as a distinct element in 1781 and
Tungsten
americium in soils, as well as in freshwater and seawater. Atmospheric curium compounds are poorly soluble in common solvents and mostly adhere to soil particles
Actinides_in_the_environment
Chemical element with atomic number 97 (Bk)
was the fifth transuranium element discovered after neptunium, plutonium, curium and americium. The major isotope of berkelium, 249Bk, is synthesized in
Berkelium
Chemical compound
Curium(III) nitrate is an inorganic compound, a salt of curium and nitric acid with the chemical formula Cm(NO3)3. Reaction of curium and nitric acid:
Curium(III)_nitrate
Chemical element with atomic number 20 (Ca)
involved the trend is reversed. In contrast to organomagnesium compounds, organocalcium compounds are not similarly useful, with one major exception, calcium
Calcium
Tetramminecopper(II) sulfate – [Cu(NH3)4]SO4 Curium(III) chloride – CmCl3 Curium(III) oxide – Cm2O3 Curium(IV) oxide – CmO2 Curium hydroxide – Cm(OH)3 Cyanogen bromide
List_of_inorganic_compounds
Chemical element with atomic number 55 (Cs)
commercial compounds of caesium are caesium chloride and nitrate. Alternatively, caesium metal may be obtained from the purified compounds derived from
Caesium
Chemical element with atomic number 80 (Hg)
compounds are always divalent and usually two-coordinate and linear geometry. Unlike organocadmium and organozinc compounds, organomercury compounds do
Mercury_(element)
Chemical compound
Curium(III) chloride or curium trichloride is a actinide chemical compound with the chemical formula CmCl3. Curium(III) chloride has a 9 coordinate tricapped
Curium(III)_chloride
Chemical element with atomic number 51 (Sb)
dissolves in concentrated acid to form oxoantimonyl compounds such as SbOCl and (SbO)2SO4. Compounds in this class generally are described as derivatives
Antimony
F-block chemical elements
Coordination compounds" (in Russian). Retrieved 11 July 2010. According to other sources, cubic sesquioxide of curium is olive-green. See "Соединения curium site
Actinide
Chemical compound
Curium(III) bromide is the bromide salt of curium. It has an orthorhombic crystal structure. Curium bromide can be produced by reacting curium chloride
Curium(III)_bromide
Chemical element with atomic number 33 (As)
recognition of the persistent toxicity of arsenic and its compounds. Arsenic containing compounds have been known since ancient times to be poisonous to
Arsenic
Chemical element with atomic number 4 (Be)
reactions. Organometallic beryllium compounds are known to be highly reactive. Examples of known organoberyllium compounds are dineopentylberyllium, beryllocene
Beryllium
Chemical element with atomic number 5 (B)
The elemental form is not typically used as a precursor to compounds. Instead, boron compounds are produced from borates. When exposed to air, under normal
Boron
Chemical element with atomic number 49 (In)
sphalerite and other zinc sulfide ores. Indium has no biological role and its compounds are toxic when inhaled or injected into the bloodstream, although they
Indium
Chemical element with atomic number 42 (Mo)
the chromium(III) compounds. The highest oxidation state is seen in molybdenum(VI) oxide (MoO3), whereas the normal sulfur compound is molybdenum disulfide
Molybdenum
Chemical element with atomic number 84 (Po)
common compounds, and almost all of its compounds are synthetically created; more than 50 of those are known. The most stable class of polonium compounds are
Polonium
Chemical element with atomic number 12 (Mg)
with polyphosphate compounds such as ATP, DNA, and RNA. Hundreds of enzymes require magnesium ions to function. Magnesium compounds are used medicinally
Magnesium
Chemical element with atomic number 7 (N)
and appears in the English names of some nitrogen compounds such as hydrazine, azides and azo compounds. Elemental nitrogen is usually produced from air
Nitrogen
Chemical element with atomic number 79 (Au)
the noble metals, it still forms many diverse compounds. The oxidation state of gold in its compounds ranges from −1 to +5, but Au(I) and Au(III) dominate
Gold
Chemical element with atomic number 36 (Kr)
Until the 1960s no noble gas compounds had been synthesized. Following the first successful synthesis of xenon compounds in 1962, synthesis of krypton
Krypton
Chemical element with atomic number 77 (Ir)
forms compounds in oxidation states between −3 and +9, but the most common oxidation states are +1, +2, +3, and +4. Well-characterized compounds containing
Iridium
Chemical element with atomic number 67 (Ho)
Compounds and Alloys Under High Pressure A Handbook. p. 272. G. Meyer; Lester R. Morss, eds. (1991). Synthesis of Lanthanide and Actinide Compounds.
Holmium
Chemical element with atomic number 73 (Ta)
of new Ta compounds. It hydrolyzes readily to an oxychloride. The lower halides TaX 4 and TaX 3, feature Ta-Ta bonds. Organotantalum compounds include pentamethyltantalum
Tantalum
Chemical element with atomic number 26 (Fe)
than Mohr's salt ((NH4)2Fe(SO4)2·6H2O). Iron(II) compounds tend to be oxidized to iron(III) compounds in the air. Iron is one of the elements undoubtedly
Iron
Chemical element with atomic number 24 (Cr)
manufacturers. Because chromium compounds were used in dyes, paints, and leather tanning compounds, these compounds are often found in soil and groundwater
Chromium
Chemical element with atomic number 16 (S)
compounds are odoriferous, and the smells of odorized natural gas, skunk scent, bad breath, grapefruit, and garlic are due to organosulfur compounds.
Sulfur
Chemical element with atomic number 25 (Mn)
the oxides can adsorb organic acids and other compounds. The adsorption of the metals and organic compounds can then cause them to be oxidized while the
Manganese
Chemical element with atomic number 45 (Rh)
and insoluble compounds, as Rh)". CDC. Retrieved 21 November 2015. "NIOSH Pocket Guide to Chemical Hazards - Rhodium (soluble compounds, as Rh)". CDC
Rhodium
Chemical element with atomic number 41 (Nb)
oxidation states from +5 to −1, the most common compounds have niobium in the +5 state. Characteristically, compounds in oxidation states less than 5+ display
Niobium
Chemical element with atomic number 81 (Tl)
nuclear cardiac stress tests. Thallium(III) compounds resemble the corresponding aluminium(III) compounds. They are moderately strong oxidizing agents
Thallium
Chemical element with atomic number 6 (C)
completely ionic compounds. Organometallic compounds by definition contain at least one carbon-metal covalent bond. A wide range of such compounds exist; major
Carbon
Chemical element with atomic number 40 (Zr)
tin. Zirconium forms a variety of inorganic compounds, such as zirconium dioxide, and organometallic compounds, such as zirconocene dichloride. Five isotopes
Zirconium
Americium compounds are compounds containing the element americium (Am). These compounds can form in the +2, +3, and +4, although the +3 oxidation state
Americium_compounds
Chemical element with atomic number 48 (Cd)
Bonding of Metal-rich Compounds. 2. Presence of Dimer (T–T)4– and Isolated T2– Anions in the Polar Intermetallic Cr5B3-Type Compounds AE5T3 (AE = Ca, Sr;
Cadmium
Chemical element with atomic number 37 (Rb)
rubidus, meaning deep red, the color of its emission spectrum. Rubidium's compounds have various chemical and electronic applications. Rubidium metal is easily
Rubidium
Chemical element with atomic number 99 (Es)
including protactinium, uranium, neptunium, plutonium, curium and berkelium. Einsteinium(II) compounds can be obtained, for example, by reducing einsteinium(III)
Einsteinium
Chemical element with atomic number 47 (Ag)
confectionery. Its compounds are used in photographic and X-ray film. Dilute solutions of silver nitrate and other silver compounds are used as disinfectants
Silver
Chemical element with atomic number 32 (Ge)
oxidation state +4 although many +2 compounds are known. Other oxidation states are rare: +3 is found in compounds such as Ge2Cl6, and +3 and +1 are found
Germanium
Chemical element with atomic number 23 (V)
depends on pH. Vanadium(II) compounds are reducing agents, and vanadium(V) compounds are oxidizing agents. Vanadium(IV) compounds often exist as vanadyl derivatives
Vanadium
Group of highly reactive chemical elements
other organometallic compounds through metal-halogen exchange. Unlike the organolithium compounds, the organometallic compounds of the heavier alkali
Alkali_metal
Chemical element with atomic number 46 (Pd)
Palladium compounds exist primarily in the 0 and +2 oxidation state. Other less common states are also recognized. Generally the compounds of palladium
Palladium
Chemical element with atomic number 68 (Er)
bromide compounds, in water treatment, chemical analysis and for certain crystal growth applications. Erbium(III) iodide is a slightly pink compound that
Erbium
Chemical element with atomic number 31 (Ga)
hydrogen. Organogallium compounds are of similar reactivity to organoindium compounds, less reactive than organoaluminium compounds, but more reactive than
Gallium
Chemical element with atomic number 13 (Al)
(a metalloid), which is in the same group: AlX3 compounds are valence isoelectronic to BX3 compounds (they have the same valence electronic structure)
Aluminium
Chemical element with atomic number 76 (Os)
Na 2[Os(CO) 4], respectively; these reactive compounds are used to synthesize osmium cluster compounds. Another example of the −1 oxidation state of
Osmium
This is a list of CAS numbers by chemical formulas and chemical compounds, indexed by formula.The CAS number is a unique number applied to a specific
List of CAS numbers by chemical compound
List_of_CAS_numbers_by_chemical_compound
Chemical element with atomic number 11 (Na)
23Na. The free metal does not occur in nature and must be prepared from compounds. Sodium is the sixth–most abundant element in the Earth's crust and exists
Sodium
Type of nuclear fuel
mode". This is one means of transmutation. Work with curium is much harder than americium because curium is a neutron emitter, the MOX production line would
MOX_fuel
Chemical compounds
the lanthanides and thus actinide compounds have greater covalent character than the corresponding lanthanide compounds, leading to a more extensive coordination
Thorium_compounds
Chemical element with atomic number 22 (Ti)
most common compound, titanium dioxide (TiO2), is a popular photocatalyst and is used in the manufacture of white pigments. Other compounds include titanium
Titanium
Chemical compound
nitrate is an inorganic compound of californium with the formula Cf(NO3)3. It can be used as a precursor to other californium compounds. Horne, Gregory P.;
Californium(III)_nitrate
Chemical element with atomic number 39 (Y)
and sulfur all form binary compounds with yttrium at elevated temperatures. Organoyttrium chemistry is the study of compounds containing carbon–yttrium
Yttrium
Chemical element with atomic number 56 (Ba)
calibrating pH equipment. Barium compounds burn with a green to pale green flame, which is an efficient test to detect a barium compound. The color results from
Barium
DTPA: aminopolycarboxylic acid
in or otherwise been contaminated internally by plutonium, americium, or curium. The recommended treatment is for an initial dose of calcium-DTPA, as this
Pentetic_acid
Group of chemical elements
organic chalcogen compounds. Not counting oxygen, organic sulfur compounds are generally the most common, followed by organic selenium compounds and organic
Chalcogen
Chemical element with atomic number 35 (Br)
organobromine compounds in the atmosphere to yield free bromine atoms, causing ozone depletion. As a result, some organobromine compounds—such as the pesticide
Bromine
Chemical element with atomic number 87 (Fr)
furthermore, the symbol coincided with that which had since been assigned to curium. Perey then suggested francium, after France. This name was officially adopted
Francium
Chemical compounds
chalcogens and pnictogens to form various binary compounds. Berkelium can also form several organometallic compounds. Two oxides of berkelium are known, with
Berkelium_compounds
Chemical element with atomic number 34 (Se)
metallic-looking form. It seldom occurs in this elemental state or as pure ore compounds in Earth's crust. Selenium (from σελήνη 'moon') was discovered in 1817
Selenium
Polish-French physicist and chemist (1867–1934)
biographies, including Madame Curie by her daughter Ève. The synthetic element curium is named in her honour. Maria (nicknamed Mania) Salomea Skłodowska was born
Marie_Curie
Chemical element with atomic number 29 (Cu)
green patina of compounds called verdigris. Copper is sometimes used in decorative art, both in its elemental metal form and in compounds as pigments. Copper
Copper
Chemical element with atomic number 92 (U)
to 5%. However, soluble uranium compounds tend to quickly pass through the body, whereas insoluble uranium compounds, especially when inhaled by way of
Uranium
Chemical element with atomic number 64 (Gd)
elements europium to its left and terbium to its right, and above the actinide curium. It is a silvery-white, malleable, ductile rare-earth element. Its 64 electrons
Gadolinium
Chemical element with atomic number 69 (Tm)
oxide, halides and other compounds. In aqueous solution, like compounds of other late lanthanides, soluble thulium compounds form coordination complexes
Thulium
Chemical element with atomic number 93 (Np)
organoneptunium compounds are the cyclopentadienyl and cyclooctatetraenyl compounds and their derivatives. The trivalent cyclopentadienyl compound Np(C5H5)3·THF
Neptunium
Chemical element with atomic number 71 (Lu)
oxide. The resulting compound is known to absorb water and carbon dioxide, and it may be used to remove vapors of these compounds from closed atmospheres
Lutetium
Chemical element with atomic number 59 (Pr)
aqueous solution, although the +4 oxidation state is known in some solid compounds and, uniquely among the lanthanides, the +5 oxidation state is attainable
Praseodymium
Chemical element with atomic number 53 (I)
characterised, such as the wine-red or bright orange compounds of ICl+ 2 and the dark brown or purplish black compounds of I2Cl+. Apart from these, some pseudohalides
Iodine
Chemical element with atomic number 66 (Dy)
Elements and their Compounds. TAB Books. pp. 236–238. ISBN 978-0-8306-3018-9. Perry, D. L. (1995). Handbook of Inorganic Compounds. CRC Press. pp. 152–154
Dysprosium
Chemical element with atomic number 82 (Pb)
organometallic compound, and is still widely used in fuel for small aircraft. Other organolead compounds are less chemically stable. For many organic compounds, a
Lead
Chemical element with atomic number 54 (Xe)
xenon-containing salts. Since then, many other xenon compounds have been discovered, in addition to some compounds of the noble gases argon, krypton, and radon
Xenon
Chemical element with atomic number 27 (Co)
and +3, although compounds with oxidation states ranging from −3 to +5 are also known. A common oxidation state for simple compounds is +2 (cobalt(II))
Cobalt
Family of chemical compounds
hydroxide Beryllium hydroxide Cobalt(II) hydroxide Copper(II) hydroxide Curium hydroxide Gold(III) hydroxide Iron(II) hydroxide Mercury(II) hydroxide Nickel(II)
Metal_hydroxide
Chemical element with atomic number 88 (Ra)
basic and does not form complexes readily. Most radium compounds are therefore simple ionic compounds, though participation from the 6s and 6p electrons (in
Radium
Chemical element with atomic number 57 (La)
them. Some lanthanum(II) compounds are also known, but they are much less stable. Therefore, in officially naming compounds of lanthanum its oxidation
Lanthanum
Chemical element with atomic number 1 (H)
giving rise to the broad class of organic compounds often associated with living organisms. Hydrogen compounds with hydrogen in the oxidation state −1 are
Hydrogen
Chemical element with atomic number 38 (Sr)
as magnesium, and organomagnesium compounds are very commonly used throughout chemistry, organostrontium compounds are not similarly widespread because
Strontium
Chemical element with atomic number 60 (Nd)
metals. Neodymium compounds were first commercially used as glass dyes in 1927 and remain a popular additive. The color of neodymium compounds comes from the
Neodymium
CURIUM COMPOUNDS
CURIUM COMPOUNDS
Boy/Male
Hindu, Indian
Curious
Boy/Male
Afghan, Hindu, Indian
Curious
Boy/Male
Bengali, Gujarati, Hindu, Indian, Kannada, Malayalam, Marathi, Sindhi, Tamil, Telugu
Curious
Boy/Male
Tamil
Curious
Boy/Male
Scottish
Crooked.
Boy/Male
Gujarati, Indian, Kannada
Curious
Girl/Female
Muslim
Bud, Blossom
Boy/Male
Hindu, Indian
Curious
Boy/Male
Hindu, Indian
Curious
Surname or Lastname
English (Devon)
English (Devon) : habitational name from Curham near Tiverton in Devon.
Boy/Male
Gujarati, Indian
Curious
Boy/Male
Tamil
Curious
Boy/Male
Shakespearean
Twelfth Night', also called 'What You Will' Gentleman attending on the Duke.
Girl/Female
Biblical
Lot.
Boy/Male
Indian, Sanskrit, Tamil
Curious
Boy/Male
Indian, Sanskrit
Adorable
Girl/Female
Latin
Golden.
Boy/Male
Hindu, Indian
Curious
Girl/Female
Christian, Gujarati, Hindu, Indian, Kannada, Marathi, Sindhi, Telugu
Wished-for Child
Surname or Lastname
English
English : habitational name, in part probably from places in Oxfordshire and Berkshire called Culham. The first is named with an Old English personal name CÅ«la + hamm ‘river meadow’; the Berkshire name is from Old English cyln ‘kiln’ + Old English hÄm ‘homestead’ or hamm ‘river meadow’.Scottish : reduced form of McCollum.
CURIUM COMPOUNDS
CURIUM COMPOUNDS
Boy/Male
Hindu, Indian, Marathi
The Moon
Boy/Male
Indian, Telugu
Lord Shiva
Boy/Male
Gujarati, Indian
Holy Hearted
Surname or Lastname
English
English : habitational name from a place in Devon, recorded in Domesday Book as Loba, apparently a topographical term meaning perhaps ‘lump’, ‘hill’, the village being situated at the bottom of a hill. There is also a place of the same name in Oxfordshire (recorded in 1208 as Lobbe), but the historical and contemporary distribution of the surname (which is still largely restricted to Devon), makes it unlikely that it ever derived from this place, or from Middle English, Old English lobbe ‘spider’.
Boy/Male
Arabic, Muslim
An Old Arabic Name; Short-statured
Male
English
Anglicized form of Hebrew Lemuwel, LEMUEL means "by God" or "for God." In the bible, this is the name of an unknown king, possibly Solomon. It is also the name of the main character (Lemuel Gulliver) in Jonathan Swift's English novel Gulliver's Travels.Â
Boy/Male
Muslim/Islamic
Pilgrim
Boy/Male
Sikh
Establishing union with God
Boy/Male
Australian, Polish
Fame
Boy/Male
Arabic, Muslim
Leader of the Religion Islam
CURIUM COMPOUNDS
CURIUM COMPOUNDS
CURIUM COMPOUNDS
CURIUM COMPOUNDS
CURIUM COMPOUNDS
adv.
In a curious manner.
pl.
of Atrium
n.
The common hemlock (Conium maculatum, poison hemlock, spotted hemlock, poison parsley), a roadside weed of Europe, Asia, and America, cultivated in the United States for medicinal purpose. It is an active poison. The leaves and fruit are used in medicine.
n.
The metal barium. See Barium.
n.
Curious inspection; impertinent peeping.
n.
A rare metallic element, occurring in the minerals cerite, allanite, monazite, etc. Symbol Ce. Atomic weight 141.5. It resembles iron in color and luster, but is soft, and both malleable and ductile. It tarnishes readily in the air.
a.
Having but one cilium.
pl.
of Curio
a.
Too curious.
a.
Efficacious in curing toothache.
n.
A genus of plants of the order Scitamineae, including the turmeric plant (Curcuma longa).
pl.
of Curia
a.
Excessively curious or inquisitive.
adv.
In an curious manner.
n.
The deep layer of mucous membranes beneath the epithelium.
n.
Armor made of leather, particularly that used by the Romans; used also by Enlish soldiers till the reign of Edward I.
n.
The Roman See in its temporal aspects, including all the machinery of administration; -- called also curia Romana.
n.
Same as Dermis.
n.
Anything singular, rare, or curious.
n.
The esculent tubers of the umbelliferous plants Bunium flexuosum and Carum Bulbocastanum.