ライフサイエンスコーパス: catalytic oxidation

1 neous catalysis while goethite mainly caused catalytic oxidation.

2 rate IL ([bmim][NO(3)]), responsible for the catalytic oxidation.

3 ity in catalysis beyond the current scope of catalytic oxidation.

4 rogen peroxide adducts formed in situ during catalytic oxidation act as substrate oxidizing agents.

5 ve Cu-O-Ti/Cu-O-Cu sites exhibit exceptional catalytic oxidation activity for NH(3) and various VOCs

6 Enhancing the catalytic oxidation activity of traditional transition-m

7 The TiO2 pellet's dark-catalytic oxidation activity was confirmed on the pharma

8 ions and, in situ quantitative monitoring of catalytic oxidation and alkylation reactions.

9 ganic compounds directly into electricity by catalytic oxidation, and although MFCs have attracted co

10 s in the last decades, several protocols for catalytic oxidation are today available, which are based

11 Using nitric oxide (NO) catalytic oxidation as a model reaction, we demonstrate

12 n anoxic conditions; infinity in the case of catalytic oxidation by H2O2 with nCuO.

13 oxo intermediates have long been proposed in catalytic oxidation chemistry, but investigations into t

14 tion can address long-standing challenges in catalytic oxidation chemistry.

15 The catalytic oxidation current allows the stable and select

16 A linear correlation between the catalytic oxidation current of AA and the activity of M.

17 Catalytic oxidation emerges as a highly promising and co

18 Thermal catalytic oxidation has emerged as a promising technique

19 lasmic domain were purified and subjected to catalytic oxidation in mixed micelles.

20 The catalytic oxidation mechanism exhibits an oxidative deac

21 For this catalytic oxidation method to be a viable means to manag

22 Additionally, rapid, catalytic oxidation of 1,2-diphenylhydrazine to azoarene

23 n nanocrystalline gamma-Al(2)O(3) during the catalytic oxidation of 2-propanol using X-ray absorption

24 consequent reuptake of Fe(III) by apoTF] and catalytic oxidation of 6-OHDA by ceruloplasmin.

25 of Au nanoparticles as active species in the catalytic oxidation of alcohols, even in solution.

26 We report a nickel complex for catalytic oxidation of ammonia to dinitrogen under ambie

27 d surface metals create active sites for the catalytic oxidation of benzyl alcohol to benzaldehyde, l

28 Chemoselective catalytic oxidation of beta-O-4 linkages promoted by the

29 ctivation has great advantage for use in the catalytic oxidation of C-H bonds in water since: (i) the

30 Electricity was produced by catalytic oxidation of carbon monoxide (CO) by using gol

31 nge by a novel approach to investigating the catalytic oxidation of carbon monoxide (CO) over palladi

32 vealed ambient temperature mechanism for the catalytic oxidation of carbon monoxide by oxygen over a

33 Kinetic measurements for the catalytic oxidation of carbon monoxide show that the gol

34 the nanoalloys for oxygen activation in the catalytic oxidation of carbon monoxide.

35 usual size dependence of the low-temperature catalytic oxidation of carbon monoxide.

36 Ir3 exhibited excellent photo-catalytic oxidation of cellular co-enzyme, the reduced n

37 In this review, results for the catalytic oxidation of CO obtained by these techniques a

38 The catalytic oxidation of CO on transition metals, such as

39 ulfidation is shown to enhance heterogeneous catalytic oxidation of contaminants.

40 The kinetic constant kcat for the catalytic oxidation of Cys was evaluated by chronoampero

41 process with added peroxynitrite, leading to catalytic oxidation of ferrocytochrome c to ferricytochr

42 tion of GOx-SWCNT is not associated with the catalytic oxidation of glucose but rather triggered by g

43 pper have significantly enhanced the electro-catalytic oxidation of glucose on carbon paste platform.

44 Electro-catalytic oxidation of glucose was demonstrated in real

45 ed silica NP label; (2) Ru(bpy)3(2+)-induced catalytic oxidation of guanine, which results in great e

46 Catalytic oxidation of H2 produces electrons which reduc

47 The catalytic oxidation of H2 was established by electrochem

48 rtant in catalytic hydrogenations and in the catalytic oxidation of H2.

49 The catalytic oxidation of H2S by hemoglobin explains how RB

50 rophilic or radical species generated in the catalytic oxidation of halides, pseudohalides, carboxyli

51 d diiron site that activates dioxygen in the catalytic oxidation of hydrocarbon substrates.

52 ellent catalytic performance in solvent-free catalytic oxidation of hydrocarbons and alcohols.

53 The surface structure of Pt(557) during the catalytic oxidation of hydrogen was studied with in situ

54 tion, harnessing light energy to mediate the catalytic oxidation of intracellular substrates.

55 n of microscopic steps immediately preceding catalytic oxidation of mannitol, consistent with the not

56 The catalytic oxidation of methane to carbon dioxide and wat

57 uced in multimillion ton scale every year by catalytic oxidation of methanol in an energetically unfa

58 y oxidizing MH2Q under anaerobic conditions, catalytic oxidation of MH2Q was observed in the presence

59 orination, demonstrated here through (i) the catalytic oxidation of micropollutant metaldehyde, and (

60 Blue light also enabled catalytic oxidation of NADH to NAD(+).

61 nts C-N coupling and diverts the reaction to catalytic oxidation of NH(3) to give N(2).

62 nt in catalytic performance in the selective catalytic oxidation of NH(3) to N(2).

63 activity because the NiO participates in the catalytic oxidation of NO to NO(2), and also favors the

64 of phenol, thanks to the traditional thermal catalytic oxidation of phenol process requires high cost

65 Kinetic studies of the catalytic oxidation of primary and secondary benzylic al

66 photo-thermo catalysis are achieved via the catalytic oxidation of propane (C(3) H(8) ) over a Pt/Ti

67 ile the step current reflects the continuous catalytic oxidation of protonated hydrazine (N(2)H(5)(+)

68 can promote the formation of sulfate through catalytic oxidation of SO2.

69 are used to elucidate the mechanism for the catalytic oxidation of styrenes using aqueous hydrogen p

70 did not have a significant effect on CYP2E1 catalytic oxidation of substrates or CYP2E1 mRNA levels.

71 SA-methylselenol redox cycle resulted in the catalytic oxidation of sulfhydryls even with nanomolar c

72 Pyrolysis, coupled with catalytic oxidation of the fuels and their fragments upo

73 First, catalytic oxidation of thiols follows Michaelis-Menten-l

74 hotosynthesis captures sunlight to drive the catalytic oxidation of water and the reduction of plasto

75 The mechanism of the catalytic oxidation of water by cis,cis-[(bpy)(2)Ru(OH(2

76 tion of organic substrates as well as in the catalytic oxidation of water that evolves molecular oxyg

77 For this set of reactions, the catalytic oxidation of water to dioxygen is one of the c

78 hat the roles of AuCl3 are 3-fold, including catalytic oxidations of N-hydroxyaniline derivatives to

79 The effect of glucose oxidase (GOx) catalytic oxidation on the efficacy of gallic acid (GA)

80 n Krevelen process is invoked to explain the catalytic oxidation process.

81 y to engage in a range of stoichiometric and catalytic oxidation processes demonstrates that this iro

82 adigm for carbon redirection in a variety of catalytic oxidation processes toward energy harvesting a

83 droperoxide (T-HYDRO ) is a highly effective catalytic oxidation protocol for the selective C-H oxida

84 One might reasonably categorize catalytic oxidation reactions into either "oxygenase" ty

85 ivation of O(2) is the most critical step in catalytic oxidation reactions involving gold and remains

86 The catalytic oxidation reactions supply sufficient thermal

87 ults are closely relevant to a wide range of catalytic oxidation reactions using excessively adsorbed

88 solar intensity) and thermal energy to drive catalytic oxidation reactions--such as ethylene epoxidat

89 ered to be "green" solvents, for homogeneous catalytic oxidation reactions.

90 ites that enhance bimolecular activation for catalytic oxidation reactions.

91 These catalytic "oxidation-reduction condensation" reactions a

92 in pollution control applications (selective catalytic oxidation/reduction) and during some industria

93 The catalytic oxidation responses were studied and the react

94 Selective catalytic oxidation (SCO) of NH(3) to N(2) is one of the

95 urthermore, connections among these distinct catalytic oxidation systems are highlighted, to gain ins

96 environmentally benign oxidant, in synthetic catalytic oxidation systems.

97 show promising results for advancing future catalytic oxidation technologies.

98 Catalytic oxidation using 50 microM Ru(bpy)3(2+) (bpy =

99 ed by square wave voltammetry (SWV) by using catalytic oxidation with Ru(bpy)(3)(2+) (bpy = 2,2'-bipy

100 n the wider context of designing sustainable catalytic oxidations with porous solids.

101 u-O(2) complex engages in a range of aerobic catalytic oxidations with substrates including alcohols