「oxidation」の共起表現一覧(1語右で並び替え)
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For the case of | oxidation, a precise excess of high-purity crystalline |
It is also renown as a reagent for "allylic" | oxidation, a reaction that entails the conversion |
Fluorine resists | oxidation above the 1+ level. |
compounds and they must be protected during | oxidation, acylation, halogenation, dehydration and ot |
damage due to a single nucleotide caused by | oxidation, alkylation, hydrolysis, or deamination; |
Fatty acid | oxidation also occurs in peroxisomes, when the fatty a |
This | oxidation also provides energy to maintain the reactio |
on reaction ceases at the aldehydic stage of | oxidation and therefore produces the same results as o |
Brazing with induction reduces both | oxidation and costly cleaning requirements, especially |
TiAl has excellent mechanical properties and | oxidation and corrosion resistance at elevated tempera |
rnatively, it can be prepared by alternating | oxidation and methyl-esterification steps from p-xylen |
ng acid in the specimen will result in rapid | oxidation and rusting, to avoid this an oil protectant |
The | oxidation and reduction of protein disulfide bonds in |
MCTs are also seen as promoting fat | oxidation and reduced food intake. |
orter, enabling the weld to bond with little | oxidation and no need for heat concentration. |
, is a laboratory device used to connect the | oxidation and reduction half-cells of a galvanic cell |
membranes, their reversible inactivation by | oxidation and their capacity to bind to cholesterol. |
removes the primary precursor of atmospheric | oxidation, and generation of reactive halogen atoms/ox |
with a flux that protects the weld area from | oxidation and contamination by producing CO2 gas durin |
It is formed from the | oxidation and alteration of primary uranium ores. |
essory enzyme which participates in the beta | oxidation and metabolism of unsaturated fatty enoyl-Co |
Based on sulfur | oxidation and reduction, it is classified as a hybrid |
subunits, exhibits high activity for ethanol | oxidation and plays a major role in ethanol catabolism |
ferred for their water resistance, and their | oxidation and mechanical stability. |
of MnO2 are associated with its redox, both | oxidation and reduction. |
abilizers in fuels and lubricants to prevent | oxidation, and in gasolines to prevent the polymerizat |
Clarkeite forms by | oxidation and replacement of uraninite late during peg |
gent, while ZnS layer protects the core from | oxidation and also the leeching of Cd/Se into the surr |
Oxidation and food poisoning are two most serious issu | |
h research in archaea, including both sulfur | oxidation and reduction and the hydrogenases frequentl |
They are sensitive to | oxidation, and due to their porous nature, may be oxid |
changeability between the three compounds on | oxidation and reduction as these reactions entail a re |
ctive heating, better joint quality, reduced | oxidation and acid cleaning, faster heating cycles, mo |
s suggested that lineatin is derived through | oxidation and cyclization of a monoterponid precursor, |
It is sensitive to | oxidation and should be prepared fresh in deionized wa |
sensitivity and enhanced hepatic fatty acid | oxidation and whole body metabolism. |
ment focus on reduction of weight, improving | oxidation and corrosion resistance while maintaining t |
To prevent this possible | oxidation and spoilage wineries will regularly "top up |
m enzymes in plants and animals catalyze the | oxidation and sometimes reduction of certain small mol |
enol is manufactured on a large scale by the | oxidation and then reduction of 2,6-di-tert-butylpheno |
MBT) is a method used to measure metabolism ( | oxidation and elimination from the system) by a part o |
bearing solutions on these rocks during the | oxidation and leaching of metal sulfide deposits. |
They involve the step immediately before | oxidation, and are often grouped with the oxidation di |
is used as a reagent in the Baeyer-Villiger | oxidation and in oxidation of carbon-carbon double bon |
n atom present in every repeat unit, causing | oxidation and finally chain breakage. |
Further | oxidation at C3 forms the β-ketohydroxyl which upon el |
sess a high luster, a resistance to tarnish ( | oxidation) at STP, are highly ductile, and enter into |
n has the distinctive property of undergoing | oxidation at the sulfur centers concomitant with reduc |
On | oxidation, benzaldehyde is converted into the odorless |
Kermesite is the result of partial | oxidation between stibnite (Sb2S3) and other antimony |
coded by this gene is inefficient in ethanol | oxidation, but is the most active as a retinol dehydro |
n filling protects the iron not only against | oxidation, but enhances the effect since the solubilit |
tration purposes as it is much less prone to | oxidation by air to iron(III). |
Solutions of UCl4 are susceptible to | oxidation by air, resulting in the production of compl |
It is biosynthesized from lysine via | oxidation by the enzyme lysyl hydroxylase. |
f pimelic acid the acyloin again followed by | oxidation by bromine. |
a large scale than the electrolysis route or | oxidation by xenon difluoride. |
Oxidation by more powerful reagents such as sodium hyp | |
substituents and is concluded by the organic | oxidation by 2,3-dichloro-5,6-dicyano-1,4-benzoquinone |
to air, it is converted to indigo dye due to | oxidation by atmospheric oxygen. |
They derive from arachidonic acid via | oxidation by the enzyme 12-lipoxygenase. |
Its | oxidation by air gives compounds that are damaging to |
Oxidation by FAD, | |
Oxidation by NAD+, | |
ow valent metal alkoxides are susceptible to | oxidation by air. |
enols and secondary aromatic amines, inhibit | oxidation by competing with organic substrate (RH) for |
Oxidation can be effected by air, but ammoxidation is | |
of (+)-catechin into taxifolin by a two-step | oxidation can be achieved by Burkholderia sp. |
As a laboratory exercise, this | oxidation can be effected with chromic acid. |
In addition, the diesel | oxidation catalyst significantly increases the fractio |
Copper itself is not used as it is an oil | oxidation catalyst. |
However, the | oxidation ceases at octanyl CoA. |
tions to prevent the various effects such as | oxidation, chain scission and uncontrolled recombinati |
rban art presentations, paintings with metal | oxidation, collages, sculptures and figurative pieces |
The wine's high propensity for | oxidation, coupled with its low color extract, has cau |
contamination of medical instruments, remove | oxidation, create a reflective surface, or prevent cor |
Oxidation damage to the cells impairs the ability of t | |
The term fatty acid | oxidation disorder (FAOD) is sometimes used, especiall |
drogenase deficiency (MCADD) is a fatty acid | oxidation disorder associated with inborn errors of me |
ciency, is an autosomal recessive fatty acid | oxidation disorder which affects enzymes required to b |
iciency is an autosomal recessive fatty acid | oxidation disorder that prevents the body from convert |
Blackening reveals | oxidation due to irradiation by oxygen atoms. |
It is also an indication of | oxidation due to atomospheric exposure or fungal decom |
kel surfaces, and as intermediates in nickel | oxidation, e.g. . |
The original Oppenauer | oxidation employed aluminium butoxide in place of the |
ersion of ketones to esters (Baeyer-Villiger | oxidation), epoxidation of alkenes (Prilezhaev reactio |
val and deposition of mercury, alteration of | oxidation fates for organic gases, and export of bromi |
The product of the | oxidation, ferrocene, is inert and readily separated f |
γ-Mn2O3 can be produced by | oxidation followed by dehydration of manganese(II) hyd |
He is noted for the studies of | oxidation for which he developed a method involving hi |
Johannite forms as secondary mineral by | oxidation from uraninite as well as different other ur |
The carbon electrode can be worn away by | oxidation from heat buildup. |
it into glucose and coniferyl alcohol, while | oxidation gives glycovanillin, which yields with emuls |
With enzymatic | oxidation halted, the leaves can then be rolled, rubbe |
, deep well injection, incineration, wet air | oxidation, Humid Peroxide Oxidation or other specialit |
In the Oppenauer | oxidation, hydrogen is transferred from one alcohol to |
ability to switch from glucose to fatty acid | oxidation), impaired ketogensis, vomiting, lethargy, u |
Phenolic compounds slow down lipid | oxidation in meats. |
eater than C-22) fatty acids undergo initial | oxidation in peroxisomes which is followed by mitochon |
st immediately that protects it from further | oxidation in most environments. |
elting and subject to rapid deterioration by | oxidation in air. |
ent, more hydrophilic, and more resistant to | oxidation in air. |
shed an analysis of the problem of premature | oxidation in The World of Fine Wine and explores some |
Octanoyl-coenzyme A is the endpoint of beta | oxidation in peroxisomes. |
The Lemieux-Johnson | oxidation is a chemical reaction named after its disco |
The Sarett | oxidation is the oxidation of an alcohol to a ketone o |
Asymmetric catalytic | oxidation is a technique of oxidizing various substrat |
Because of the | oxidation is signaled by a color change from orange to |
The energy needed for this | oxidation is conserved in the formation of a thioester |
The | oxidation is conducted using acetic acid as solvent an |
Premature | oxidation is a risk in organic winemaking, in which ad |
arbon adsorption is often used and catalytic | oxidation is another option. |
Oxidation is usually relatively easy to detect, owing | |
The final step of beta | oxidation is the cleavage of 3-ketoacyl CoA by the thi |
ioxide is very insoluble in water, but after | oxidation it can be converted to uranium trioxide or a |
He stated an important law of | oxidation kinetics in 1933. |
eld (e.g., 13%) as a result of non-selective | oxidation leading to mixtures of the starting material |
vels as their primary method to estimate the | oxidation levels that a wine has undergone. |
ochemical experiments show that (+)-catechin | oxidation mechanism proceeds in sequential steps, rela |
The aluminum controls | oxidation mechanisms by limiting oxide growth. |
Jojoba esters are very resistant to | oxidation, more so than castor oil, coconut oil, macad |
ygen is only enough for burning, and neither | oxidation nor reduction occurs. |
s syngas, olefins, and oxygenates by partial | oxidation, NOx removal, and incineration by total oxid |
ul oxidizing properties are suggested by the | oxidation number of +2 for the oxygen atom, which is u |
The | oxidation number is placed either as a right superscri |
However, | oxidation number is used in coordination chemistry wit |
A reduced gas is a gas with a low | oxidation number (or high reduction), and is usually h |
The | oxidation number is used in the nomenclature of inorga |
he oxides and the halides exhibiting a broad | oxidation number spectrum: Re2O7, ReO3, Re2O5, ReO2, a |
Because of this, the | oxidation number of Pt does not rise above +2.32. |
nd in which selenium serves as an anion with | oxidation number of −2 (Se2−), much as sulfur does in |
The | oxidation number is usually numerically equal to the o |
The | oxidation number of a central atom may be part of the |
Also, | oxidation numbers are conventionally represented with |
There have also been reports of premature | oxidation occurring in wines from Australia, Alsace, G |
atty acids are activated in the cytosol, but | oxidation occurs in the mitochondria. |
ct to break the bromine bonds such that when | oxidation occurs following the removal of the dyed fab |
ried into the mitochondria, where fatty acid | oxidation occurs. |
The | oxidation of species is registered as a peak in the cu |
acetic acid was produced on a large scale by | oxidation of alkanes, via a process that cogenerates s |
Acrolein is prepared industrially by | oxidation of propene. |
It appears to be the product of the | oxidation of unsaturated fatty acids, and may be sympt |
In chemical industry, selective | oxidation of pinene with some catalysts gives many com |
Continued blowing then brought about | oxidation of the phosphorus. |
Maghemite is formed by the topotactic | oxidation of magnetite. |
Organobismuth(III) have been used in the | oxidation of alcohols. |
ransfer catalyst, including in the catalytic | oxidation of cyclohexene to 1,6-hexanedioic acid. |
Sodium perchlorate is produced by anodic | oxidation of sodium chlorate, not sodium chloride, at |
rase that appears to be involved more in the | oxidation of fatty acids rather than in their formatio |
Oxidation of organic contaminants using magnetic parti | |
Succindialdehyde is generated by the | oxidation of THF with chlorine followed by hydrolysis |
In a fuel cell, the | oxidation of any fuel requires the use of a catalyst i |
mineral of secondary origin, a result of the | oxidation of copper ores and arsenopyrite. |
The compound is formed by organic | oxidation of glyoxal with hot nitric acid, the main si |
acid are thought to be intermediates in the | oxidation of alkenes by permanganate. |
activity, which is associated with possible | oxidation of Fe2+ (ferrous iron) into Fe3+ (ferric iro |
The | oxidation of solutions of iron(II) is very pH dependen |
1,2-Benzoquinone is produced on | oxidation of catechol exposed to air in aqueous soluti |
secondary origin, having been formed by the | oxidation of galena in the upper parts of mineral lode |
The reverse of the MPV reaction, | oxidation of an alcohol to a ketone, is termed the Opp |
Oxidation of paraldehyde (acetaldehyde trimer) with Se | |
ory phenomenon that inhibits organification ( | oxidation of iodide) in the thyroid gland, the formati |
The sequential | oxidation of sulfur dioxide followed by its hydration |
he reduction of fumarate to succinate to the | oxidation of quinol to quinone, in a reaction opposite |
g reaction of cobalt(II) chloride results in | oxidation of the cobalt, whereas nickel remains in the |
form, which is carefully heated to allow for | oxidation of the reagents to their respective oxides a |
prepared commercially as a co-product of the | oxidation of ethylene at high temperature in the prese |
decrease in solubility which accompanies the | oxidation of Ce(III) to Ce(IV). |
t humans and higher apes, it is a product of | oxidation of uric acid by purine catabolism. |
Benzoic acid (C6H5COOH) can be prepared by | oxidation of benzyl chloride in the presence of alkali |
most frequently occurs as the product of the | oxidation of the upper parts of sphalerite bearing ore |
Amine oxides are prepared by | oxidation of tertiary amines or pyridine analogs with |
n nature because such species arise from the | oxidation of glucose. |
are excluded,which should be obtained by the | oxidation of the double bond with hydrogen peroxide in |
tions are done at C-13, followed by a single | oxidation of C-14 that converts daunorubicin to doxoru |
r the reactions of pentose phosphate path of | oxidation of glucose, so it was suggested that it may |
Oxidation of its metal-phenylenediamine complexes affo | |
( | Oxidation of just the aldehyde yields an aldonic acid |
a catalyst for a range of reactions e.g. the | oxidation of methane and carbon monoxide ; the decompo |
Oxidation of FeII compounds, e.g. the precipitation of | |
, which, as described above, is generated by | oxidation of 3-picoline. |
Oxidation of the terminal hydroxyl group instead of th | |
The MEOS pathway requires | oxidation of NADPH to NADP+, which consumes ATP and di |
rgrown magnetite and ilmenite, formed by the | oxidation of ulvospinel. |
he sodium salt Na4C(COO)4 can be obtained by | oxidation of pentaerythritol C(CH2OH)4 with oxygen in |
It is formed by the | oxidation of the N−3 ion in ammonia to a N−1 ion. |
gen is removed from the CH2 group during the | oxidation of ethanol to acetaldehyde, and it gets repl |
A minor pathway is | oxidation of the terminal methyl groups to primary alc |
Oxidation of lignosulfonates from softwood trees produ | |
P dehydrogenase (IMPD1), which catalyzes the | oxidation of IMP to XMP, and GMP synthetase, which cat |
It rapidly oxidizes in air, so that bulk | oxidation of a centimeter-sized sample occurs within s |
ganic synthesis, the first example being the | oxidation of benzene, employed by Prof. S. V. Ley in t |
The iron oxide cements are derived from the | oxidation of percolating solutions of iron salts. |
IMPDH2 catalyzes the NAD-dependent | oxidation of inosine-5'-monophosphate into xanthine-5' |
Decanal can be prepared by | oxidation of the related alcohol decanol. |
IX alpha, to bilirubin with the concomitant | oxidation of a NADH or NADPH cofactor. |
It is an intermediate in the | oxidation of sodium by oxygen. |
TOPO is usually prepared by | oxidation of trioctylphosphine, which in turn is produ |
The drug disulfiram (Antabuse) prevents the | oxidation of acetaldehyde to acetic acid and is used i |
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