「OXIDES」の共起表現一覧(1語左で並び替え)
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s that are hydrolysed in water and have acidic | oxides. |
they form acidic | oxides (whereas metals generally form basic oxides) |
Acidic | oxides are oxides of either nonmetals or of metals in |
In general for the insoluble actinide | oxides such as high fired uranium dioxide and MOX fue |
cur in ring opening of cyclopropanones, allene | oxides and in the Favorskii rearrangement. |
a solvent (or flux) for electrolysis aluminium | oxides such as bauxite. |
The conversion of aluminium | oxides into metallic aluminium requires that the meta |
of a high percentage of silicon and aluminium | oxides, and a low percentage of sodium, potassium, an |
a mineral compound of several hydrous aluminum | oxides. |
Amine | oxides of anti-cancer drugs have been developed as pr |
Amine | oxides are prepared by oxidation of tertiary amines o |
Amine | oxides are weak bases with a pKa of around 4.5 that f |
Examples of amine | oxides include pyridine N-oxide, a water-soluble crys |
ones, and oxidation of amines to produce amine | oxides. |
Amine | oxides are used as protecting group for amines and as |
Long-chain alkyl amine | oxides are used as nonionic surfactants and foam stab |
exothermically releasing Hydrogen bromide and | oxides of Nitrogen. |
aterial releases fumes of hydrogen cyanide and | oxides of nitrogen. |
on between stibnite (Sb2S3) and other antimony | oxides such as valentinite (Sb2O3) or stibiconite (Sb |
air at elevated temperatures producing arsenic | oxides, the products and yields of which are variable |
nature, zirconium minerals invariably exist as | oxides (reflected also by the tendency of all zirconi |
include missing or different (foreign) atoms, | oxides, insulators and even stresses within the cryst |
ods and special tools were not needed, because | oxides were structurally weakened by decomposition pr |
ode reacts to form solid molybdenum or cadmium | oxides. |
on and in increasing the weight of the calces ( | oxides) of metals as compared with metals themselves. |
much larger heat of formation than the carbon | oxides, as best seen in Ellingham diagrams. |
ning inorganic materials, in which carbonates, | oxides and hydroxides predominate. |
meration was chosen so that the characteristic | oxides of the B groups would correspond to those of t |
izing agent and combines with certain coloring | oxides to produce unique colors not easily attainable |
ed, the products are primarily the most common | oxides. |
antimony and lead by the formation of complex | oxides. |
uction: metallic films, transparent conductive | oxides (TCO), superconducting films & coatings |
by heating umber, a dark brown clay containing | oxides of iron and manganese. |
dochite is a mineral combining lead and copper | oxides with formula PbCu6O8-x(Cl,Br)2x(x ≤ 0.5). |
Early African miners focused on copper | oxides and carbonates rather than sulfides, because o |
articles, but both forms degrade to copper(II) | oxides in moist air. |
Both curium | oxides are solids, insoluble in water but soluble in |
Several different | oxides are added to zirconia to stabilize the tetrago |
re the temperature stability of many different | oxides on the same diagram. |
Group 3 or Group 4. The metals form different | oxides: vanadium forms vanadium(II) oxide, vanadium(I |
to 1-alkoxyalkyl substituted diphenylphophine | oxides which in turn can be used in a Wittig-like rea |
air / fuel mixtures was to combine rare earth | oxides and base metal oxide components in the catalys |
There are large deposits of rare earth | oxides at Kvanefjeld. |
hosts the largest known deposit of rare earth | oxides (JORC compliant) outside of China. |
Fe | oxides replacing pyrite cubes |
cellular electrical acceptors (such as Fe(III) | oxides). |
Cuprite, native copper and Fe-Mn | oxides also occur in this environment. |
y in this recent era, making the observed Fe3+ | oxides volumetrically small, though pervasive and spe |
tive processes including the formation of Fe3+ | oxides that impart a reddish hue to the Martian surfa |
h as limonite and yellow ochre (hydrous ferric | oxides), barite (barium sulphate), sphalerite (zinc s |
Hydrous ferric | oxides, also called hydrous iron oxides, are a class |
It serves as a carrier for | oxides of nitrogen (NOx) into rural regions and cause |
For | oxides, oxygen is usually listed last. |
hey, however, have some unusual properties for | oxides, such as high electric conductivity. |
tendency of certain chemical compounds to form | oxides by hydrolysis or abstraction of oxygen, often |
s with distorted Sb(III) centers bound to four | oxides. |
It uses pigments derived from | oxides which fuse with the glaze when the piece is fi |
ne, plagioclase feldspar and accessory garnet, | oxides and possibly amphibole. |
complexes of oxophilic metals tend to generate | oxides by reaction with oxygen. |
ite) and sesquioxides, in the form of hydrated | oxides of iron and aluminium. |
organic compounds in return for reductions in | oxides of nitrogen (NOx). |
wever, other common crucible materials include | oxides such as Alumina, Zirconia, and Boron nitride. |
e older literature and continuing in industry, | oxides are named by contracting the element name with |
Iodine | oxides are chemical compounds of oxygen and iodine. |
naturally occurring minerals, principally iron | oxides, that have been used since prehistoric times a |
ally solid replacement bodies of chert or iron | oxides formed during diagenesis of a sedimentary rock |
These iron | oxides can be generated by precipitation from acidic |
ssociated with dendrites of manganese and iron | oxides. |
which is composed of naturally occurring iron | oxides. |
ts is formed of goethite along with other iron | oxides and quartz. |
ium-rich augite, plagioclase feldspar and iron | oxides. |
site makes for a green stone, and various iron | oxides make for a red stone. |
our from sulfur impurities, or brown from iron | oxides. |
It has also been formed from other iron | oxides, hematite and magnetite; the carbonate siderit |
is the flaky surface of hot rolled steel, iron | oxides consisting of Iron(II,III) oxide, hematite and |
in the absence of hydrazine, or reacting iron | oxides and zinc oxide at high temperature. |
Iron | oxides and oxide-hydroxides are widespread in nature, |
sinopite) is a clay or quartz containing iron | oxides, with a "blood-red or brownish red color, some |
hornblende that contains less than 5% of iron | oxides is gray to white in color and named edenite, f |
impregnating the sandstone round it with iron | oxides that have reinforced it. |
g processes in soil, and along with other iron | oxides or oxyhydroxides such as goethite, is responsi |
(α-AlO(OH)), as well as clays, silt, and iron | oxides and hydroxides. |
ioxide production as iron is reduced from iron | oxides by carbon and there is no economical substitut |
rsenic species such that they adsorb onto iron | oxides and create larger particles that may be filter |
Role of iron | oxides |
Typically closely associated with various iron | oxides. |
close feldspar ophitically; less commonly iron | oxides and sphene do so. |
arge load of clay and silt which contains iron | oxides. |
The risk and safety phrases for iron | oxides are R36, R37, R38, S26, and S36. |
clase and accessory biotite, apatite, and iron | oxides. |
, such as clays, chlorides, sulfates, and iron | oxides, have been discovered there. |
O3, γ-Fe2O3) is a member of the family of iron | oxides. |
as carriers for nucleic acids are mostly iron | oxides. |
discovered sulfate, hydrated sulfate, and iron | oxides in Eos Chasma. |
Mill scale is composed of iron | oxides mostly ferric and is bluish black in color. |
It is composed of iron | oxides, from a kind of clay or quartz called sinople. |
nts, typically a few percent, of iron-titanium | oxides such as magnetite, ilmenite, and ulvospinel. |
together with olivine and lesser iron-titanium | oxides such as ilmenite and magnetite-ulvospinel; min |
Cases of poisoning from tin metal, its | oxides, and its salts are "almost unknown," on the ot |
ction, since the presence of contaminants like | oxides or etching by products could alter its metalli |
oses, giving a mix of iodine, oxygen and lower | oxides of iodine. |
Manganite occurs with other manganese | oxides in deposits formed by circulating meteoric wat |
Hopcalite is a mixture of copper and manganese | oxides used as catalyst to convert carbon monoxide in |
ink rhodonite contrasting with black manganese | oxides is sometimes used as a gem material as seen in |
jaspers and massive beds of iron and manganese | oxides. |
Vanadium(II) oxide, VO, is one of the many | oxides of vanadium. |
Mn2O3 is unlike many other transition metal | oxides in that it does not adopt the corundum (Al2O3) |
the addition of various minerals, often metal | oxides cobalt, praseodymium, iron, or neodymium. |
cumulations of manganese, iron and other metal | oxides that accumulate on the deep ocean floor. |
It also passivates metals and reduces metal | oxides (ferric oxide -> ferrous oxide; cupric oxide - |
normally act as a reducing agent for all metal | oxides at very high temperatures. |
her from silica, copper oxide, and other metal | oxides to chemically reduce the copper ions to elemen |
reactive gas, which is oxygen in case of metal | oxides or acetylene in case of metal carbides. |
where the ore mineralogy is dominated by metal | oxides, hydroxides, clays and carbonates after the or |
tween metal ions in aqueous solution and metal | oxides, which are represented by many minerals. |
ns in Mott insulators such as transition metal | oxides by the presence of repulsive Coulombic interac |
manufactured by reacting fine powders of metal | oxides, hydroxides, or carbonates in solid state in t |
The reduction of metal | oxides with carbon (or carbon monoxide) to form the f |
Like other alkali metal | oxides, Rb2O is a strong base. |
A number of transition metal | oxides are also superconductors. |
This gas etches metal | oxides by formation of a volatile BOClx compounds. |
st used for the carbon-free reduction of metal | oxides. |
Transition metal | oxides comprise a class of materials that contain tra |
Unlike most metal | oxides, it dissolves slightly in water to give a pale |
which the surface contains two kinds of metal | oxides. |
A creek rich in metal | oxides in the south of Grande Terre. |
Metal(V) | oxides are generally nonreactive and act like acids r |
ct, glass artists use a thin layer of metallic | oxides including magnesium, silicon and titanium at h |
, one for the reduction of refractory metallic | oxides by means of aluminum and the other for the red |
Wahl's process of reducing metallic | oxides was similar in principle to a method of reduct |
yellow amorphous mixture of uranium minerals, | oxides, silicates and hydrates of uranium, derived fr |
or may be sometimes better described as mixed | oxides |
There exist multiple | oxides as iodine has more than one oxidation state. |
xanes can be formed by dimerization of nitrile | oxides. |
hs, also carbon monoxide, methane and nitrogen | oxides. |
e plant ranked 28th for the amount of nitrogen | oxides released into the atmosphere, with 24,000 tons |
uction system are also used to remove nitrogen | oxides. |
er technology, reducing production of nitrogen | oxides. |
s greener because it does not produce nitrogen | oxides as do traditional ammoxidations. |
fluoride, silicon tetrafluoride, and nitrogen | oxides. |
2020 emissions of sulfur dioxide and nitrogen | oxides from ships will exceed land-based emissions in |
d, giving the plant the right to vent nitrogen | oxides, airborne mercury, and sulphur dioxide into th |
pentoxide, N2O5 is one of the binary nitrogen | oxides, a family of compounds that only contain nitro |
three-way catalytic converter reduces nitrogen | oxides to nitrogen and oxygen, oxidizes carbon monoxi |
ntrol emissions of sulfur dioxide and nitrogen | oxides. |
Nitrogen | oxides are treated either by modifications to the com |
actually represents several forms of nitrogen | oxides such as NO (nitric oxide), NO2 (nitrogen dioxi |
One of several nitrogen | oxides, NO2 is an intermediate in the industrial synt |
To reduce nitrogen | oxides (NOx), the units use low-NOx burners as well a |
y pollutants such as hydrocarbons and nitrogen | oxides react to form secondary pollutants such as per |
ported in 2005 to emit 19,746 tons of nitrogen | oxides and 9,286 tons of volatile organic compounds p |
Bailly to capture sulphur dioxide and nitrogen | oxides. |
ctive catalytic reducer which removes nitrogen | oxides, an electrostatic precipitator which removes f |
ould reduce the stations emissions of nitrogen | oxides, to meet the requirements of the Industrial Em |
issions ceilings for sulphur dioxide, nitrogen | oxides, volatile organic compounds and ammonia to be |
to eliminate the acidic nitrates and nitrogen | oxides produced by gradual decomposition of nitric ac |
ns, 96% of carbon monoxide and 90% of nitrogen | oxides produced in automobile engines and those used |
ecially shorter-lived species such as nitrogen | oxides and volatile organic compounds; this allows fe |
Nitrogen | oxides (NOx) |
particulate matter, carbon monoxide, nitrogen | oxides and sulfur oxides. |
ising agents such as chlorine, ozone, nitrogen | oxides and sulphur oxides forming acetophenone, benza |
es toxic gases including chlorine and nitrogen | oxides. |
to produce nitrogen gas, rather than nitrogen | oxides. |
ing it produces toxic fumes including nitrogen | oxides. |
y, it may release very toxic fumes of nitrogen | oxides. |
e surrounding air to oxidize, creating nitrous | oxides. |
ul emissions into the atmosphere (only nitrous | oxides was left) - the product of its combustion is w |
Nitrous | oxides, along with sulfur dioxide from the sulfur in |
noise in the area, increased levels of nitrous | oxides, sulfur dioxide, carbon dioxide, and cancer ca |
he following binary (containing only Cs and O) | oxides of caesium are known: Cs11O3, Cs4O, Cs7O, and |
also added in order keep the surface clear of | oxides. |
Chlorine forms a variety of | oxides, as seen above: chlorine dioxide (ClO2), dichl |
A fire scale is a layer of | oxides that forms on the surface of metal when a blac |
Limonite, a mixture of | oxides |
The surface of most metals consists of | oxides and hydroxides in the presence of air. |
Organophosphine | oxides are considered to be the most stable organopho |
Other | oxides, e.g. |
Other | oxides such as uranium dioxide (UO2) and uranium trio |
Like other phosphine | oxides (e.g., triphenylphosphine oxide), the molecule |
It converts uranium and plutonium | oxides into the corresponding hexafluorides. |
oduces MOX from a mix of uranium and plutonium | oxides. |
the process by which metal ions form polymeric | oxides in aqueous solution. |
It is one of the principal | oxides of copper. |
It is one of principal | oxides of chromium and is used as a pigment. |
mbustion of hydrogen with air can also produce | oxides of nitrogen, though at negligibly small amount |
The appearance of corrosion products ( | oxides) is evaluated after a period of time. |
nto two categories: those that form protective | oxides, and those that cannot. |
sent in the form of evenly distributed quartz, | oxides and hydroxides of iron, hydrated haemetite and |
It is used with other rare | oxides in the coating of anode-electrodes for industr |
Dryer Absorber (SDA) System designed to reduce | oxides of nitrogen (NOX) and sulfur dioxide (SO2) emi |
eir conversion to bulk metal, these refractory | oxides are first converted to the tetrachloride, whic |
Related | oxides are also known such as Na2ZnO2, Na2Zn2O3,, Na1 |
oxidation of the reagents to their respective | oxides and formation of a glass mixture. |
The anionic derivatives of these same | oxides are also well known including chlorate (ClO− |
dielectric films such as the gate and sidewall | oxides as well as the buried oxide in the case of sil |
l of organic compounds, and rich in silicates, | oxides, and sulfides. |
has a small chemical workshop producing sodium | oxides, vanadium chloride and oxytrichloride. |
Higher sulfur | oxides are a group of chemical compounds with the for |
The chemistry of sulphur | oxides is complex both in the atmosphere and in river |
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