ライフサイエンスコーパス: potentiometry

1 d aqueous Fe2+ concentrations using mediated potentiometry.

2 more sensitive than traditional open-circuit potentiometry.

3 bility that is not possible via conventional potentiometry.

4 nsistent with those determined previously by potentiometry.

5 ic resonance (EPR) spectroscopies coupled to potentiometry.

6 emical open-circuit potential method, namely potentiometry.

7 ctively, using voltammetry, amperometry, and potentiometry.

8 est aspects of thin-layer cells and standard potentiometry.

9 ([3Fe-4S](+/0)) clusters were determined by potentiometry.

10 other iron-sulfur centers by selective redox potentiometry.

11 low and steady-state kinetic methods, and by potentiometry.

12 een -100 and -280 mV, as determined by redox potentiometry.

13 mV, respectively) were measured using redox potentiometry.

14 ometry as a valuable alternative to existing potentiometry.

15 Potentiometry allows one to assess the ionized form of p

16 (PANI/PAA)(2) films was examined using both potentiometry and ATR spectroscopy.

17 Mediated redox potentiometry and characterization by UV-visible, magnet

18 ons containing aqueous Fe(2+) using mediated potentiometry and characterized the size and aggregation

19 e sample speciation compared to zero-current potentiometry and detect the sum of labile carbonate spe

20 asicities of the compounds were evaluated by potentiometry and fluorescence spectroscopy.

21 ananas) where it was determined using direct potentiometry and Gran method.

22 ectrolytes is certainly possible with direct potentiometry and is done routinely in clinical analyzer

23 with classic calcium (Ca(2+)) ion-selective potentiometry and isotherms of Ca(2+) binding to a mixtu

24 In situ potentiometry and null ellipsometry was combined and use

25 ave designed and implemented electrochemical potentiometry and second harmonic generation-based appro

26 eference hydricity is determined using redox potentiometry and spectrophotometric titration for a par

27 Potentiometry and spectrophotometry were employed to det

28 ruginosa ATCC 9027 has been determined using potentiometry and two spectroscopic approaches at concen

29 ature summarizes recent works in paper-based potentiometry and voltammetry in heavy metal determinati

30 atomic spectroscopy (total) and by stripping potentiometry and/or adsorptive methodologies (Cu fracti

31 brane is shown to detect pH (by zero current potentiometry) and acidity and alkalinity (by chronopote

32 obing methods (amperometry, voltammetry, and potentiometry) and demonstrated strain-insensitive sensi

33 loride (TDDA) were read out at zero current (potentiometry) and with applied current techniques (chro

34 scaffold, GGG, we have employed fluorimetry, potentiometry, and calorimetry to determine the thermody

35 ference electrode shows similar voltammetry, potentiometry, and drift when compared to a commercial r

36 scopy, analytical ultracentrifugation, redox potentiometry, and EPR demonstrate that PRIME binds the

37 es are normally interrogated by zero current potentiometry, and their selectivity is understood to be

38 Future applications of NC potentiometry are briefly discussed.

39 d membrane against traditional ion-selective potentiometry are demonstrated in terms of a detection l

40 Therefore, potentiometry as a single technique is by itself not suf

41 enzyme-mediator pairs based on open circuit potentiometry, as well as the efficacy of the biosensor

42 base behavior of the compound was studied by potentiometry at 298.2 K in aqueous solution and at ioni

43 nd fumarate (fum(2-)) anions were studied by potentiometry at 298.2 K in aqueous solution and at ioni

44 el sensing principle for d-serine, transient potentiometry based d-serine sensor using engineered DAA

45 The transient potentiometry based sensing reported in this study will

46 reatment in the future, for which a wearable potentiometry-based ion-selective electrode (ISE) has at

47 to many techniques (NMR, turbidity, calcium-potentiometry) but can readily be evidenced by time-reso

48 Here we show that potentiometry can be used to study the surface of colloi

49 In situ potentiometry can provide real-time feedback during synt

50 Herein, thin-layer potentiometry combined with ion-exchange membranes as ba

51 Potentiometry confirmed the strong stabilization of the

52 Redox potentiometry coupled with optical spectroscopy allowed

53 dology compares well to that of open circuit potentiometry, despite giving complementary information

54 se voltammetry, square wave voltammetry, and potentiometry), each with different uses.

55 Using redox potentiometry, electronic absorption, circular dichroism

56 ical bioelectronics, including ion-selective potentiometry, enzymatic amperometry, potential sweep vo

57 -art thick film, laser printing, solid-state potentiometry, fluidics and wireless technologies.

58 adopted analytical strategies were stripping potentiometry, HPLC and an extraction (solid-phase or li

59 of each heme A and heme B to [H10H24](2) and potentiometry indicated the pair of hemes B resided in t

60 Potentiometry indicates that the substitutions do not si

61 es dynamic electrochemistry and zero current potentiometry into a single protocol.

62 Potentiometry is also reported for colloidal CdSe NCs, w

63 odes (ISEs) that are operated by equilibrium potentiometry is determined by the well-known Nernst equ

64 HRR potentiometry is first validated with a benzimidazole-ba

65 e potentiometric and amperometric responses, potentiometry is independent of electrode size and mass

66 Potentiometry is known to be sensitive to so-called free

67 Ion-selective electrode (ISE) potentiometry is reliable only if on-site calibration us

68 roach called "concentration-related response potentiometry" is used to study molecular interaction fo

69 ons, and practical considerations of the HRR potentiometry method are discussed, highlighting the pow

70 demonstrate the application of open circuit potentiometry (OCP) to measure enzyme turnover kinetics,

71 gnal readout was achieved using open circuit potentiometry (OCP).

72 e dependent OCP change monitoring, transient potentiometry, provided rapid and sensitive sensor signa

73 educed CdSe NCs to ZnO NCs in solution, with potentiometry providing a measure of the inter-NC electr

74 ode, and one may use any electrode useful in potentiometry regardless of its impedance.

75 Zero-current potentiometry revealed that cation-exchanger nanopores d

76 Potentiometry reveals major pK shifts from 4.2 to 7.0 an

77 For borohydrides, HRR potentiometry reveals that effective hydricity values ar

78 lectivity of the membrane compared to direct potentiometry, since the level of interference will incr

79 roscope is used to demonstrate low-cost zeta potentiometry that allows measurement of both particle a

80 ed such behavior by using scanning tunneling potentiometry to probe the nanometer-scale flow of elect

81 advantages of ion-transfer voltammetry over potentiometry to quantitatively and mechanistically asse

82 R, turbidimetry, SAXS, cryo-TEM, and calcium-potentiometry to show that CaP nucleation is initiated b

83 rrently the stainless steel response (CV and potentiometry) toward two different species; l-dopa, whi

84 Temperature pulse potentiometry (TPP) gives convenient peak-shaped analyti

85 Such measurements are done by potentiometry using polyaniline (PAni)-based working ele

86 3 mm DBS punches were measured via indirect potentiometry, using the Roche Cobas 8000 routine chemis

87 d spectroscopic/spectrometric techniques (pH potentiometry, UV, CD, NMR, PAC, EXAFS, and ESI-MS) comb

88 troduce graphene, electroanalytical methods (potentiometry, voltammetry, amperometry and electrochemi

89 Stripping potentiometry was specific for sulfide-bound Cu in wines

90 ometric sensing, termed backside calibration potentiometry, was recently introduced.

91 can be favorably compared to that in direct potentiometry where no sample depletion occurs.

92 y medium exchange constant current stripping potentiometry, which classified the Cu as either bound t

93 the same Nernstian responses as typical for potentiometry, which is demonstrated with Cl(-) ISE meas

94 e traditionally interrogated by zero current potentiometry, which, ideally, gives information on the

95 Potentiometry with resonance Raman and FTIR spectroscopy