ライフサイエンスコーパス: rotating disk electrode

1 Fe(CN)6(4-) ion at the surface of a platinum rotating disk electrode.

2 cles over a wide concentration range using a rotating disk electrode.

3 ed previously for other electrodes including rotating disk electrodes.

4 hydrogen oxidation reaction activity in both rotating disk electrode and membrane electrode assembly

5 Rotating disk electrode and rotating ring disk electrode

6 Two models based on rotating disk electrodes and flow chronopotentiometry at

7 the-art electroanalytical system combining a rotating-disk electrode and operando visualization.

8 and catalysts deposited onto a glassy carbon rotating disk electrode) and in situ (in a membrane elec

9 -GDI) were studied using cyclic voltammetry, rotating disk electrode, and flow injection analysis.

10 n an electrode body housed in a conventional rotating disk electrode apparatus.

11 Amperometry at a rotating disk electrode at 0 V gave sensitivity for hydr

12 The success in extending the theory for the rotating disk electrode beyond the Levich equation shows

13 Sensitive detection was achieved using a rotating disk electrode coupled with gas chromatography-

14 ncorporating radial diffusion and reveal the rotating disk electrode edge effect as a consequence of

15 f external mass transfer resistances using a rotating disk electrode exhibited only a 5% reduction in

16 s work shows how the additively manufactured rotating disk electrode experimental system and additive

17 The rotating disk electrode is also additively manufactured

18 s, including linear sweep voltammetry with a rotating disk electrode (LSV-RDE), sample-generation tip

19 oscopic electrochemical responses, including rotating disk electrode measurements of the catalytic ac

20 current values, derived from microelectrode/rotating disk electrode measurements or transient peak c

21 Through a combination of rotating disk electrode measurements, electrochemical im

22 es in 0.1 M LiClO(4) 1,2-dimethoxyethane via rotating disk electrode measurements.

23 Cyclic voltammetry and rotating-disk electrode measurements in nonaqueous media

24 dation/evolution activity obtained using the rotating disk electrode method is found to decrease with

25 The immunoassay was detected with rotating disk electrode (RDE) amperometry and an interdi

26 s are complemented by chronoamperometric and rotating disk electrode (RDE) data.

27 Rotating disk electrode (RDE) experiments were carried o

28 f cyclic voltammetry, chronoamperometry, and rotating disk electrode (RDE) experiments.

29 technique were then examined using classical rotating disk electrode (RDE) experiments.

30 spectrophotometer (RSS) was coupled to a Au rotating disk electrode (RDE) for monitoring at near-nor

31 le strand DNA (ss-HSDNA/rGOae) modified on a rotating disk electrode (RDE) is presented.

32 le evaluation of ORR activity using standard rotating disk electrode (RDE) measurements.

33 the alloy nanoparticles were measured with a rotating disk electrode (RDE) technique.

34 V for the oxygen reduction reaction (ORR) in rotating disk electrode (RDE) testing, which substantial

35 ain or with 10% CB) were further examined in rotating disk electrode (RDE) tests that minimized mass

36 ed to carbon black and platinum catalysts in rotating disk electrode (RDE) tests.

37 ed the classical Koutecky-Levich model for a rotating disk electrode (RDE) to a general heterogeneous

38 hydrodynamic diffusion of the ss-HSDNA/rGOae rotating disk electrode (RDE) toward AFB1 detection usin

39 possess a USL as well as at the surface of a rotating disk electrode (RDE) used to measure chemical f

40 In vitro rotating disk electrode (RDE) voltammetry and in vivo mi

41 Rotating disk electrode (RDE) voltammetry at glassy carb

42 Rotating disk electrode (RDE) voltammetry is applied to

43 ed to characterize the mass transport to the rotating disk electrode (RDE), the most widely employed

44 measurements, using microelectrodes (ME) or rotating disk electrodes (RDE) provide a means to analyz

45 Rotating disk electrodes (RDEs) are widely used in elect

46 The use of rotating disk electrodes (RDEs) is probably the most con

47 The as-fabricated PdNPs/rGO rotating disk electrodes (RDEs) were investigated toward

48 racterization of the additively manufactured rotating disk electrode setup was performed using hexaam

49 report of a complete additively manufactured rotating disk electrode setup, highlighting how high-per

50 Rotating disk electrode studies show that dominantly (00

51 The additively manufactured rotating disk electrode system costs less than 2% of a c

52 The additively manufactured rotating disk electrode system was printed using a predo

53 eloping a completely additively manufactured rotating disk electrode system.

54 igated in situ in aqueous electrolytes using rotating disk electrode techniques.

55 composition that outperforms Mn(3)O(4)/C in rotating disk electrode tests.

56 f dioxygen in neutral aqueous solutions at a rotating disk electrode to be oxidized at a concentric A

57 reaction is conducted on a polymer film on a rotating disk electrode under potentiostatic condition s

58 IrO2 particles drop-coated on glassy carbon rotating disk electrode using Nafion as a binder.

59 al prefrontal cortex (mPFC) were measured by rotating disk electrode voltammetry (RDEV).

60 mechanistic investigations, conducted using rotating disk electrode voltammetry and DFT calculations

61 ammetry over steady-state techniques such as rotating disk electrode voltammetry and microdisk electr

62 Rotating disk electrode voltammetry data are presented f

63 mediator and NADH has been characterized via rotating disk electrode voltammetry, and it has been fou

64 gas analyses, scanning electron microscopy, rotating disk electrode voltammetry, demonstrate that Li

65 methodology is proposed, in the framework of rotating disk electrode voltammetry, to analyze the curr

66 ue, its concept is derived from hydrodynamic rotating disk electrode voltammetry.

67 THC, impedance spectroscopy, and cyclic and rotating disk electrode voltammetry.

68 A rotating disk electrode was used in this study because i

69 er microdisk electrode or a 3 mm diameter Pt rotating disk electrode, while peak currents at a macrod