ライフサイエンスコーパス: electrolyte composition

1 anionic lipid fraction and is a function of electrolyte composition.

2 hrough modification of the sensitizer or the electrolyte composition.

3 he charge of specific functional groups, and electrolyte composition.

4 roreduction are known to be sensitive to the electrolyte composition.

5 e construction of batteries with symmetrical electrolyte composition.

6 tion at the steps and by choosing an optimal electrolyte composition.

7 d is sensitive to both catalyst identity and electrolyte composition.

8 pends on the incubation period as well as on electrolyte composition.

9 tion criteria for organic redox flow battery electrolyte compositions.

10 ends cell lifetime by recovering the initial electrolyte composition after it is perturbed by side re

11 centration, up to a factor 250 due to tested electrolyte compositions alone, (ii) was higher in NaCl

12 , is associated with hyperosmolality, making electrolyte composition an important factor that might i

13 We highlight the influence of electrolyte composition and alkali/electrolyte-free feed

14 s (LMBs), the intrinsic relationship between electrolyte composition and cell performance remains unc

15 We probe the influence of electrolyte composition and concentration on the adsorpt

16 udied along with surface charge at different electrolyte composition and effective pore size to eluci

17 terfacial molecular ordering affected by the electrolyte composition and ionic species.

18 SnO(4) was found to be strongly dependent on electrolyte composition and more positive than TiO(2) vs

19 conductive carbon network, explore different electrolyte compositions and material integration strate

20 mineral water brands utilizing their various electrolyte compositions and their Ca(2+), Mg(2+), and Z

21 of GR (from minutes to days depending on pH, electrolyte composition, and aging conditions).

22 arameters-including mass transport dynamics, electrolyte composition, and applied potentials-this wor

23 ental parameters, such as polymer structure, electrolyte composition, and environmental polarity.

24 weak base was strongly affected by different electrolyte compositions, and (vi) the protonated base w

25 effects, and perturbations of the supporting electrolyte composition are minimized.

26 esonance spectroscopies, we investigated the electrolyte composition at different discharge potential

27 nomechanical resistance as a function of the electrolyte composition by means of a reliable molecular

28 However, small changes in electrolyte composition can cause large potential drifts

29 The effect of background electrolyte composition (Cl(-), HCO3(-), and NH4(+)) on

30 eutral base was hardly affected by different electrolyte compositions, comparable to a neutral refere

31 er as an electrolyte, EXS enabled control of electrolyte composition during recovery by separating an

32 he system, exacerbated by the diverse set of electrolyte compositions, electrode materials, and opera

33 amental mechanistic understanding of how the electrolyte composition impacts the SEI formation and it

34 such as detector location, ITP duration, and electrolyte composition in ITP preconcentration and sepa

35 e formation (DeltaR/R) and to changes in the electrolyte composition in region neighboring the electr

36 Cellular organisms regulate electrolyte composition in the cytosol to optimize intra

37 A Li-O(2) cell containing this electrolyte composition is shown to cycle for more than

38 l changes in coordinated solvent as the bulk electrolyte composition is systematically modified.

39 electrocatalysts depends on the interplay of electrolyte composition near the electrode surface, the

40 Here, the impact of mineral electrolyte composition of aqueous solutions on thiol ox

41 tes across epithelia, and control the pH and electrolyte composition of intracellular organelles.

42 acinar and duct cells to determine the final electrolyte composition of salivary fluid.

43 The increase was not due to changes in electrolyte composition of the cerebrospinal fluid (CSF)

44 tion to clays was strongly influenced by the electrolyte composition of the eluent but with a consist

45 ded to examine other titanate anodes and new electrolyte compositions, offering a unique tool for SEI

46 face passivation eliminates the influence of electrolyte composition on magnesium deposition morpholo

47 Here, we show that by varying electrolyte composition, pH, applied voltage frequency,

48 Our modeling showed that dialysate electrolyte composition, plasma albumin, and plasma tota

49 to assess essential parameters under varying electrolyte compositions, solution depths, and scan rate

50 n lithium-ion batteries is to reformulate an electrolyte composition that stabilizes both graphitic (

51 he relationships between process conditions, electrolyte composition, the material properties of the

52 s including voltage, flow rate, and solution electrolyte composition to affect the extent of oxidatio

53 ied monovalent (NaCl) and divalent (CaCl(2)) electrolyte composition was used as background solution

54 Current density and background electrolyte composition were examined in a controlled an

55 Variations in the electrolyte composition were shown to play a critical ro

56 In a device with an electrolyte composition yielding optimum photovoltaic de