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1 ns catalyzed by more specific enzymes (e.g., oxidation reactions).
2 was insufficient to activate the thermal CH4 oxidation reaction.
3 improved electrocatalysis toward the ethanol oxidation reaction.
4 p, which is an intermediate in the PEC water-oxidation reaction.
5 idual nanoelectrodes catalyzing the hydrogen-oxidation reaction.
6 ticle level during electrocatalytic hydrogen-oxidation reaction.
7 pha-oxo MIA was likely formed via a two-step oxidation reaction.
8 e in-situ obtained by finely controlling the oxidation reaction.
9 ces with variable step density during the CO oxidation reaction.
10 n intriguing type of catalysts for the water oxidation reaction.
11 ty and durability towards efficient methanol oxidation reaction.
12 ancement of catalytic activity for the water oxidation reaction.
13 e dosed simultaneously, i.e., running the CO oxidation reaction.
14 ffective peroxidase mimic to catalyze the co-oxidation reaction.
15 wed for preequilibration before starting the oxidation reaction.
16 overlayers that are catalytic for the water-oxidation reaction.
17 reaction, and alcohol (methanol or ethanol) oxidation reaction.
18 ble metals was demonstrated towards hydrogen oxidation reaction.
19 , consistent with a one-proton, one-electron oxidation reaction.
20 lications for other Pd-catalyzed aerobic C-H oxidation reactions.
21 a promising route for enhancing the rates of oxidation reactions.
22 t has not been previously observed in olefin oxidation reactions.
23 key intermediates in various cobalt-mediated oxidation reactions.
24 nts in many enzymatic and synthetic C-H bond oxidation reactions.
25 from petroleum feedstock require a series of oxidation reactions.
26 expansion of the scope of accessible aerobic oxidation reactions.
27 s, which is capable of catalyzing subsequent oxidation reactions.
28 dine reagents for a broad array of substrate oxidation reactions.
29 capable of effecting hydride abstraction and oxidation reactions.
30 uired to permit chemoselective reduction and oxidation reactions.
31 rophotometry and the heat flux dissipated by oxidation reactions.
32 n similar time scales as analogous gas-phase oxidation reactions.
33 ater is the only by-product in H2O2 involved oxidation reactions.
34 is a general photoredox catalyst for diverse oxidation reactions.
35 ormance for the oxygen reduction and alcohol oxidation reactions.
36 tro-oxidation of CO2 and a poison in partial oxidation reactions.
37 redox-active organic cocatalysts in aerobic oxidation reactions.
38 is exposed to free chlorine in water due to oxidation reactions.
39 the importance of furan fatty acids in lipid oxidation reactions.
40 e utility of DAF as a ligand in Pd-catalyzed oxidation reactions.
41 degrees C and shown to be active in various oxidation reactions.
42 d as co-catalytic redox mediators in aerobic oxidation reactions.
43 e, Fe(II)- and alpha-ketoglutarate-dependent oxidation reactions.
44 ocesses in which microbes catalyse reduction-oxidation reactions.
45 on without promoting potentially deleterious oxidation reactions.
46 PR) to transfer electrons when they catalyze oxidation reactions.
47 ated in both catalytic oxygenation and water oxidation reactions.
48 onger than 15 days, due to isomerisation and oxidation reactions.
49 e detected for the first time as a result of oxidation reactions.
50 efficient catalytic systems for challenging oxidation reactions.
51 trol of automobile emissions, and industrial oxidation reactions.
52 e, Fe(II)- and alpha-ketoglutarate-dependent oxidation reactions.
53 esign of catalysts with greater activity for oxidation reactions.
54 ovel catalytic systems for these challenging oxidation reactions.
55 prior to the emergence of dechlorination and oxidation reactions.
56 dation for understanding Cu(II)-mediated C-H oxidation reactions.
57 Pd(0) commonly employed in Pd(II)-catalyzed oxidation reactions.
58 oposed to be responsible for catalytic water oxidation reactions.
59 including C-C bond formation, reduction, and oxidation reactions.
60 and a key step in the development of aerobic oxidation reactions.
61 rforming demanding and physiologically vital oxidation reactions.
62 elevant oxoiron(IV) intermediate in chemical oxidation reactions.
63 ation with and without accounting for indoor oxidation reactions.
64 t widely studied palladium(II)-catalyzed C-H oxidation reactions.
65 ater emulsion and was found to inhibit lipid oxidation reactions.
66 x) to promote H(2) O(2) -dependent enzymatic oxidation reactions.
67 evelopment of improved catalysts for allylic oxidation reactions.
68 steps of the catalytic cycle of this unusual oxidation reaction, a series of mechanistic experiments
69 7)Ni(3)/C, which exhibits excellent hydrogen oxidation reaction activity in both rotating disk electr
72 ies in two prototypical Pd-catalyzed aerobic oxidation reactions: allylic C-H acetoxylation of termin
74 forms of Hg-thiols are produced by the Hg(0) oxidation reaction and that the local coordination envir
76 hod was shown to provide fast photocatalytic oxidation reactions and analysis with throughput of abou
77 e flow rate or flow interruption facilitated oxidation reactions and generated redox byproducts (Mn(I
78 unctional enzyme that catalyzes a cascade of oxidation reactions and is the major linalool metabolizi
79 rophotometry and the heat flux dissipated by oxidation reactions and measured directly in water-in-oi
80 hey can effectively inhibit or slow negative oxidation reactions and scavenge free radicals and react
81 bility to perform some of the most difficult oxidation reactions and study the mechanisms of such tra
82 ed with the ability of flavonoids to prevent oxidation reactions and the presence of vicinal hydroxyl
84 ental and practical significance to Mn-based oxidation reactions and wastewater treatment processes.
85 used to support palladium-catalyzed aerobic oxidation reactions and, where possible, describes mecha
87 er salts find widespread use in Pd-catalyzed oxidation reactions, and they are typically used as oxid
89 tion, NRR, for ammonia synthesis and ammonia oxidation reaction, AOR, for energy utilization) is prov
90 ther advantages of this new C-C coupling and oxidation reaction are its operational simplicity and th
91 ve and durable electrocatalysts for methanol oxidation reaction are of critical importance to the com
95 bon dioxide reduction reactions with organic oxidation reactions are promising techniques for produci
99 ndergoes both electrophilic and nucleophilic oxidation reactions, as well as O2-transfer between meta
100 (vs Ag/AgCl) and a reversible reduction and oxidation reaction at -0.235 and -0.227 V, respectively.
102 The initial step of photocatalytic water oxidation reaction at the metal oxide/aqueous interface
103 kinetics and thermodynamics of photoinduced oxidation reactions at aqueous interfaces and analyze a
104 severely deficient in catalyzing the normal oxidation reaction, but that D2HG production efficiency
105 amin B2, is essential for cellular reduction-oxidation reactions, but is not readily synthesized by m
106 effective ligand in a number of Pd-catalyzed oxidation reactions, but the mechanistic basis for its u
107 cocatalysts in Cu-catalyzed aerobic alcohol oxidation reactions, but the nature of the cooperativity
108 Monitoring the [Ir(Cp*)(phpy)(NCAr(F))](+) oxidation reaction by low-temperature NMR techniques rev
109 dying titanium dioxide (TiO2) photocatalytic oxidation reactions by performing reactions on a TiO2-co
110 n pH and concentration of the substrate, the oxidation reaction can be directed toward selective prod
111 uction reaction with the value-added organic oxidation reaction can secure significant economic feasi
112 role in governing these interactions, as the oxidation reactions carried out by the first community m
113 cal coenzyme for enzymes that fuel reduction-oxidation reactions, carrying electrons from one reactio
116 convert them into red ketocarotenoids via an oxidation reaction catalyzed by a previously unknown ket
117 chloride followed by a 5-exo-dig cyclization/oxidation reaction catalyzed by copper(II) chloride.
118 compound is a key intermediate of the water oxidation reaction catalyzed by the peroxido-bridged com
122 al carbon dioxide reduction reaction-organic oxidation reaction coproduction via conceptual process d
124 alladium(II)-catalyzed carbon-hydrogen (C-H) oxidation reactions could streamline the synthesis of ph
125 e resulting proton chemical potential to the oxidation reaction driving these PCET processes have not
126 iques showed BHT to be efficient in limiting oxidation reactions during digestion, almost inhibiting
127 n bifurcation mechanism for the two-electron oxidation reaction, during which one electron ends up on
128 mechanism to directly couple a conventional oxidation reaction, e.g., the oxidation of ferrocene, to
129 lights relevant applications of chemical C-H oxidation reactions, electrochemistry and microfluidic t
130 oundation for broader development of aerobic oxidation reactions employing quinone-based catalysts.
131 strategy features an enantioselective alpha-oxidation reaction enabled by a chiral amine in conjunct
132 tion involves decarboxylation followed by an oxidation reaction enabled just by using DMSO as the sol
133 nary Au@PtIr core-shell catalyst for ethanol oxidation reaction (EOR) in alkaline solutions, which ex
134 much enhanced stability for ORR and ethanol-oxidation reaction (EOR) than those of disordered PdCuM
135 are active electrocatalysts for the ethanol oxidation reaction (EOR), but inactive for splitting the
139 ggest that when demand for NAD(+) to support oxidation reactions exceeds the rate of ATP turnover in
141 hat the aliphatic secondary alcohols undergo oxidation reaction faster than benzylic secondary alcoho
143 yzed radical methylation/sp(3) C-H amination/oxidation reaction for the facile synthesis of quinazoli
144 ulfoxide/Bronsted acid catalyzed allylic C-H oxidation reaction for the synthesis of oxazolidinones f
145 suggesting new opportunities in light-driven oxidation reactions for energy conversion and photocatal
146 ydrogenase (HDH, EC 1.1.1.23), catalyses two oxidation reactions: from L-histidinol (HOL) to L-histid
148 ansition metal oxides in catalyzing advanced oxidation reactions has been widely investigated, very f
152 The slow kinetics of hydrogen evolution and oxidation reaction (HER/HOR) in alkaline media limits ma
153 ell nanocatalysts for hydrogen evolution and oxidation reactions (HER-HOR) using hanging strips of ga
154 l significance of the hydrogen evolution and oxidation reactions (HER/HOR), their kinetics in base re
155 well as unambiguous evidence of a reduction-oxidation reaction history between Al-Cu-Fe alloys and s
159 hydrogen evolution reaction (HER), hydrogen oxidation reaction (HOR), oxygen evolution reaction (OER
160 action with the Pt-electrocatalyzed hydrogen-oxidation reaction (HOR), we combine single-molecule flu
162 causes for higher overpotential in hydrogen oxidation reaction, (ii) mechanistic aspects of oxygen r
164 odium bicarbonate, and the sodium persulfate oxidation reaction in acidic media is employed to achiev
166 odel, coupling O2 transfer and ascorbic acid oxidation reaction in the bottled juice, confirmed that
167 re of a Cu(111) model catalyst during the CO oxidation reaction in the CO+O2 pressure range of 10-300
170 SCE), which allows to drive demanding photo-oxidation reactions in photoelectrochemical cells (PECs)
171 nd stability for both hydrogen evolution and oxidation reactions in strong acidic media using earth-a
172 electrocatalysts for hydrogen evolution and oxidation reactions in strong acids represents a great c
173 YP71AV1) enzyme, responsible for a series of oxidation reactions in the artemisinin biosynthetic path
174 ic drug that undergoes similar H2 O2 induced oxidation reactions in the blood as other Cr supplements
175 echanistic understanding of flavin-catalyzed oxidation reactions, in either the absence or presence o
176 tion metal complexes can be used to catalyze oxidation reactions, in some cases with high turnover nu
179 satile oxidants that perform a wide range of oxidation reactions, including the functionalization of
180 al mechanisms, including disrupted reduction-oxidation reactions, inflammatory responses, metabolic d
181 n this Review on the description of the main oxidation reactions initiated by (1)O(2) and the resulti
183 veloped with Oxone (2KHSO5.KHSO4.K2SO4); the oxidation reaction involves the stirring of methoxy/hydr
185 e of p-OR-DTBP substrates via a two-electron oxidation reaction involving hydrolysis steps which libe
186 Predicting site selectivity in C-H bond oxidation reactions involving heteroatom transfer is cha
187 benchmark our reactor using an aqueous-phase oxidation reaction: iron-catalyzed hydroxyl radical prod
189 lective catalytic system for aerobic alcohol oxidation reaction is built in PCN-700 through linker in
190 gen-reduction reaction (ORR) and liquid fuel oxidation reaction is very important for the commerciali
192 te ligands in electrophilic and nucleophilic oxidation reactions is reported, and can be correlated t
193 resistant nanocatalysts for high-temperature oxidation reactions is ubiquitous in many industrial cat
195 arge carrier density and accelerated surface oxidation reaction kinetics become the key points for im
196 face region but also accelerated the surface oxidation reaction kinetics, synergistically contributin
197 ecies can provide a lower energy barrier for oxidation reactions, leading to the conclusion that this
198 y of these compounds undergo metal-catalysed oxidation reactions, leading to the generation of hydrog
200 hiol groups on RyR2, further indicating that oxidation reactions may be involved in the actions of th
201 mechanistic details of the deprotonation and oxidation reactions mediated by CaMn(3) O(4) (+) as well
203 ectrocatalytic performance for both methanol oxidation reaction (MOR) and ethanol oxidation reaction
204 catalytic activity of Pd toward the methanol oxidation reaction (MOR) and the visible-light plasmonic
206 cidic and basic solution toward the methanol oxidation reaction (MOR) compared to larger PtZn iNPs sy
207 roscopy (ATR-SEIRAS) studies of the methanol oxidation reaction (MOR) on Ru/Pt thin film and commerci
211 e introduced on paper and then catalyzed the oxidation reaction of 3,3',5,5'-tetramethylbenzidine (TM
213 was a one-pot cascade oxidation-cyclization-oxidation reaction of a Boc-protected amino alcohol, pre
214 c setup, it is finally demonstrated that the oxidation reaction of a nonfluorescent species at the wo
216 cationic bisguanidinium-catalyzed asymmetric oxidation reaction of alkenes with potassium permanganat
218 her highlighted by the subsequent sequential oxidation reaction of cyclized 7-iodo-12-phenylindeno[2,
220 n/streptavidin to the poly(A) tails, and the oxidation reaction of tetramethylbenzidine (TMB) on the
221 vitation techniques to study the "wall-less" oxidation reactions of 18:1 cardiolipin and 1-palmitoyl-
222 sis provides a fast and easy method to study oxidation reactions of biomolecules, such as peptides.
223 Electrochemical studies of the reduction and oxidation reactions of five different organic nitroxyls
224 cations (e.g. oxygen reduction reaction, and oxidation reactions of formic acid, methanol and carbon
226 e low intrinsic reactivity of N2O, selective oxidation reactions of highly reactive compounds are pos
227 nd radical pathway latent in metal-catalyzed oxidation reactions of methane at low temperatures.
229 ution are used simultaneously to investigate oxidation reactions of organic substrates by nonheme iro
230 ciency and regioselectivity in catalytic C-H oxidation reactions of these structurally rich complexes
231 ind this antagonism was investigated through oxidation reactions of Trolox via mass spectrometry anal
232 e metal catalysts for the hydrogen evolution/oxidation reaction on contact with adventitious O(2) are
234 pared a range of essential parameters for an oxidation reaction on platinum nanoparticles (NPs) confi
235 s are used to probe the carbon monoxide (CO) oxidation reaction on ruthenium (Ru) initiated by an opt
240 tly enhance the kinetics of radical-mediated oxidation reactions-pollutant degradation in particular.
241 inant, more stable intermediate of the water oxidation reaction, possibly a surface bound oxo, may re
246 ion in the presence of free chlorine and the oxidation reaction rates increase with free chlorine con
247 vel of reduced glutathione to keep reduction-oxidation reaction (redox) homeostasis under stress cond
250 to initiate the O-O bond formation in water oxidation reactions remained undetected, presumably due
253 lecular oxygen to the system and modeled the oxidation reaction resulting in the mature protein-bound
254 ies for these electrochemical imine-to-azine oxidation reactions reveals low overpotentials (eta) for
255 Site-selective aliphatic C(sp(3))-H bond oxidation reactions serve as the cornerstone of this wor
256 of important chemical and enzymatic aerobic oxidation reactions, such as alcohol oxidation mediated
258 f resazurin has enabled the study of analyte oxidation reactions, such as the oxidation of dopamine a
259 lenging chemical reactions involve selective oxidation reactions, such as the selective oxidation of
261 tives to TEMPO-based catalysts for selective oxidation reactions (TEMPO = 2,2,6,6-tetramethyl-1-piper
263 min A retention was related to the extent of oxidation reactions that occurred in flours during stora
264 ed here, included besides its classical NADH oxidation reaction the generation of cytosolic pyruvate.
266 Nature often utilizes molecular oxygen for oxidation reactions through monoxygenases and dioxygenas
267 2-oxoglutarate) as a co-substrate in so many oxidation reactions throughout much of nature is notable
268 and CeO2 were synthesized and utilized in CO oxidation reactions to compare the catalytic activities
269 few representative examples of photoinduced oxidation reactions to focus on in this Perspective.
270 ment, followed by a subsequent hydroboration oxidation reaction, to afford substituted amino alcohol
271 The success of the current permanganate oxidation reaction together with mechanistic insights sh
272 esults indicated that EVs markedly inhibited oxidation reaction, total volatile base nitrogen (TVBN),
273 K) temperature, which is relevant for the CO oxidation reaction under cold-start conditions in the ca
274 ngle gold nanocrystals during a catalytic CO oxidation reaction under operando conditions with cohere
275 erential accumulation of 5fC in the in vitro oxidation reactions under both neutral and acidic condit
278 uffer from the sluggish kinetics of the urea oxidation reaction (UOR) owing to a 6 e(-) transfer proc
279 have been developed to catalyze hydrocarbon oxidation reactions using H2O2 in the presence of added
280 e dramatically suppressed in methane partial oxidation reactions using iron oxide nanoparticles embed
282 preferentially oxidized amino acid, but the oxidation reaction was significantly inhibited by its ph
285 ffective extraction of phosphorus through an oxidation reaction, which promotes the outward diffusion
286 review is devoted to dealing with selective oxidation reactions, which are important from the viewpo
287 n this Perspective, we focus on photoinduced oxidation reactions, which have attracted enormous inter
288 cially unsaturated fatty acids, are prone to oxidation reactions, which lead to the formation of off-
289 t the unsaturated fatty acids easily undergo oxidation reactions, which lead to the reduction of shel
290 nt Ir(1)/CN electrocatalyses the formic acid oxidation reaction with a mass activity of 12.9 [Formula
291 propagators to trigger the onset of the auto-oxidation reaction with an apparent turnover frequency o
294 The nature of the oxidizing species in water oxidation reactions with chemical oxidants catalyzed by
295 he former catalyst was used in batch aerobic oxidation reactions with different primary alcohols and
296 ervation by examining the coupling of anodic oxidation reactions with the production of hydrogen gas
297 t, metal-free electrocatalysts for hydrazine oxidation reaction, with low overpotential and high curr
300 d on the electrochemical monitoring of water oxidation reaction (WOR) catalyzed by iridium oxide (IV)