ライフサイエンスコーパス: galvanic

1 The localized corrosion behavior of a galvanic aluminum copper couple was investigated by in s

2 lectrical treatments: with Leyden jars, with galvanic and electromagnetic machines, and more recently

3 orce of voltaic electricity developed in the galvanic battery.

4 iron mineral cathode with metallic lead in a galvanic cell increased lead release by 531 mug L(-1) on

5 flow control and delivery devices, based on galvanic cells configured as self-powered magnetohydrody

6 sture analysis by bringing in the concept of Galvanic cells wherein the redox energies of Al and cond

7 When galvanic cells with lead and magnetite (Fe3O4) electrode

8 lithium battery, and are shown to yield high galvanic charge/discharge capacities and excellent Coulo

9 volving a delicate interplay between bipolar galvanic corrosion and alloying-dealloying oxidation.

10 this time frame indicates the occurrence of galvanic corrosion and scale destabilization.

11 ing lead to a mineral cathode-release due to galvanic corrosion by 990 mug L(-1).

12 Al-Cu-CFRP (Carbon Fiber Reinforced Polymer) galvanic corrosion cell.

13 Specifically, galvanic corrosion of lead by iron (oxyhydr)oxides was i

14 of the insulator-mixed-material edge on the galvanic corrosion rate of magnesium alloy (AE44)-mild s

15 ntial reversal of Pb:Cu couples, after which galvanic corrosion sacrifices copper and lead is protect

16 tes due to the disturbance of pipe scale and galvanic corrosion.

17 a function of time at different areas of the galvanic couple.

18 rosive microenvironments at lead surfaces in galvanic couples.

19 This unexpected result is achieved based on galvanic coupling.

20 eadily prepared in minutes using electroless galvanic deposition of Ag onto copper wires followed by

21 es (Pt/CuNWs) are synthesized by the partial galvanic displacement of CuNWs and have a 100 nm diamete

22 uld be converted into hollow Au nanoboxes by galvanic displacement of Pt with Au.

23 with Hg(2+) concentration resulting from the galvanic displacement of silver by mercury: Ag(np) + 1/2

24 by Cu underpotential deposition followed by galvanic displacement of the Cu adatoms.

25 A silver galvanic displacement process on commercial aluminum foi

26 of metal nanoparticles have been achieved by galvanic displacement reaction between an aqueous soluti

27 A galvanic-displacement-reaction-based, room-temperature "

28 parating the torques due to the inverse spin-galvanic effect and spin-Hall effect mechanisms into the

29 to unambiguously identify the circular photo-galvanic effect as the dominant mechanism for the helici

30 effect and the other one by the inverse spin-galvanic effect.

31 The vestibular system was activated by galvanic electrical stimulation in 19 normal subjects.

32 The vestibular system was activated by galvanic electrical stimulation in 22 patients with spin

33 y in catalysis, are typically prepared using galvanic exchange (GE), but the final catalyst morpholog

34 d by the nanoscale Kirkendall effect, nor by Galvanic exchange alone, two processes that have been pr

35 The model reaction studied is the galvanic exchange of Ag with Au(3+) ions, the kinetics o

36 This nanoscale Galvanic exchange process explains the novel morphologic

37 We propose a modification of the bulk Galvanic exchange process that takes into account consid

38 and then this shell was replaced with Pt by galvanic exchange.

39 s oxygen content values, determined with the galvanic fuel cell method, were used to determine VO2 wi

40 ed laptop computer and potentiostat provided galvanic isolation between the applied electrophoretic f

41 working and the counter electrodes, which in galvanic mode would provide achievement of the best anal

42 However, if galvanic Pb-Cu connections are present, or if a highly p

43 th the Br2/Br(-) redox couple, yields a peak galvanic power density exceeding 0.6 W cm(-2) at 1.3 A c

44 fication of water content and density of the galvanic raw sludge were performed, as well as analyzes

45 lysis determined 1.73% of C in the sample of galvanic raw sludge, and XRF analysis determined the mos

46 s at or near room temperature, mediated by a galvanic reaction between Au(3+) and Sn(2+) (forming Au(

47 olysis by high-energy electrons in modifying galvanic reactions.

48 inhibitors whose triggered release occurs by galvanic reduction or ion exchange.

49 agent to compete with and thereby block the galvanic replacement between Ag and HAuCl4.

50 We also illustrate how the capability of galvanic replacement can be enhanced to fabricate nanoma

51 octahedral nanorattles via room-temperature galvanic replacement coupled with seeded growth.

52 ch novel metal nanostructures fabricated via galvanic replacement for applications ranging from catal

53 cle provides a progress report on the use of galvanic replacement for generating complex hollow nanos

54 is unconventional mechanistic path, in which galvanic replacement is found to dominate initially when

55 Conventionally, galvanic replacement is studied by stopping the reaction

56 d cavities were synthesized by a sacrificial galvanic replacement method.

57 xtend this elegant approach and describe the galvanic replacement of the liquid metal alloy galinstan

58 illustrates a new avenue of research for the galvanic replacement process and, in principle, could be

59 al versus time experiments to understand the galvanic replacement process.

60 etallic ions used in the solution during the galvanic replacement process.

61 article presents a mechanistic study on the galvanic replacement reaction between 11- and 14-nm mult

62 s of a Au/Pd alloy nanostructure through the galvanic replacement reaction between Pd ultrathin nanow

63 The galvanic replacement reaction between silver and chloroa

64 The galvanic replacement reaction is a highly versatile appr

65 Galvanic replacement reaction was carried out for pallad

66 s, and methods for promoting or preventing a galvanic replacement reaction.

67 sequent conversion into Au nanocages via the galvanic replacement reaction.

68 quid-cell electron microscopy to investigate galvanic replacement reactions between silver nanopartic

69 hanisms, rates and possible modifications of galvanic replacement reactions in the native solution en

70 Galvanic replacement reactions provide an elegant way of

71 sphine as a strong binding ligand to prevent galvanic replacement reactions.

72 ing of chemical transformations in nanoscale galvanic replacement reactions.

73 underpotential deposition (UPD) followed by galvanic replacement with Pt.

74 s a number of important concepts involved in galvanic replacement, including the facet selectivity in

75 account of the mechanistic understanding of galvanic replacement, specifically focused on its abilit

76 icant suppression of heart rate variability, galvanic skin conductance, and salivary alpha-amylase le

77 Anticipatory arousal was indexed by galvanic skin conductance.

78 unds elicited heightened heart rate (HR) and galvanic skin response (GSR) in misophonic subjects, whi

79 Startle response, PPI, heart rate response, galvanic skin response, and changes in self-report ratin

80 plasma, a process which aims to vitrify the galvanic sludge and render metals (iron, zinc, and chrom

81 Galvanic sludge results from the treatment of effluents

82 e treatment proposed here is exposure of the galvanic sludge to the high temperatures provided by the

83 he vitrification during the pyrolysis of the galvanic sludge.

84 ion of the sacculus by both hypergravity and galvanic stimulation.

85 imilar dmcc labeling was induced by a 30 min galvanic stimulus of up to -100 microA applied through a

86 lar afferent firing activity induced by this galvanic stimulus was quantified in anesthetized gerbils

87 that the electron beam strongly affects the galvanic-type process in the liquid-cell.

88 ong duration (3-6 s), low-intensity (0.7 mA) galvanic vestibular stimulation (GVS) applied at differe

89 standing and holding an earth-fixed object, galvanic vestibular stimulation (GVS) can evoke upper li

90 Galvanic vestibular stimulation (GVS) evokes responses i

91 we measured the postural response evoked by galvanic vestibular stimulation (GVS) in a rare subject

92 Galvanic vestibular stimulation (GVS) uses modulated cur

93 Galvanic vestibular stimulation (GVS) was used to evoke

94 esponses elicited by 1 mA bilateral, bipolar galvanic vestibular stimulation (GVS) were investigated.

95 changes in posture on the motor response to galvanic vestibular stimulation (GVS).

96 hetized, male, Long-Evans rats by sinusoidal galvanic vestibular stimulation (sGVS).

97 During the fixed-in-space conditions, galvanic vestibular stimulation caused large changes in

98 Here, we applied galvanic vestibular stimulation concurrently with real b

99 Galvanic vestibular stimulation is used frequently in cl

100 During the earth-fixed task, galvanic vestibular stimulation produced large polarity-

101 Galvanic vestibular stimulation responses were absent du

102 Galvanic vestibular stimulation was applied concurrently

103 In the present study, sinusoidal galvanic vestibular stimulation was used to activate thi

104 poral fossa, responses to 1 mA left cathodal galvanic vestibular stimulation were of similar magnitud

105 se evoked by a pure vestibular perturbation (galvanic vestibular stimulation, GVS).

106 when chair velocity was altered without any galvanic vestibular stimulation, indicating a compensato

107 r stimulation (SVS) has some advantages over galvanic vestibular stimulation.

108 gh mastoid electrodes (conventionally termed galvanic vestibular stimulation; GVS) evokes a balance r