ライフサイエンスコーパス: carbon fibre

1 matrix and allow this matrix to wet-out the carbon fibres.

2 structure in the outer skin of the nitrided carbon fibres.

3 tes were stretched by approximately 7% using carbon fibres.

4 nation of vertically oriented long and short carbon fibres.

5 s to recoverable monomers, yielding pristine carbon fibres.

6 Under the external mechanical load of carbon fibres, absolute force developed in myocytes from

7 1 beta cells was assessed through the use of carbon fibre amperometry in combination with Fura-2.

8 due to malfunctioning fusion pores, we used carbon fibre amperometry to record pre-spike feet, which

9 ll catecholaminergic exocytosis, measured by carbon fibre amperometry, is synchronized to an AP.

10 ected with cell capacitance measurements and carbon fibre amperometry.

11 Carbon-fibre amperometry can evaluate the effect of M ch

12 As monitored by carbon-fibre amperometry, the sustained [Ca(2+)](i) incr

13 provides clean, mechanically viable recycled carbon fibres and recoverable resin monomers from the th

14 ng strategies are needed that recover intact carbon fibres and the epoxy-amine resin components.

15 lasses in the titania-silica family, Kevlar, carbon fibres, anisotropic Invar Fe-Ni alloys, ZrW2O3 an

16 High stiffness and strength carbon fibres are commonly used to reinforce epoxy-resin

17 erties of silk fibres compared to commercial carbon fibres, as the relative standard deviation for st

18 tton-based lithium sensor was coupled with a carbon fibre-based reference electrode to obtain a poten

19 Carbon fibre-based reverse iontophoresis electrodes were

20 ine oxidase (ChO) enzymes were fabricated on carbon fibre (CF) substrate.

21 We report a systematic study of carbon fibre (CF)-supported NiCo layered double hydroxid

22 t a low breakdown voltage, whereas the short carbon fibres coalesce the discharge into a volumetric a

23 e materials, such as wind turbine blades and carbon fibre composites comprising fibres and resins.

24 With increased carbon fibre content, the quasi-static tensile/flexural

25 tegrated composite electrode consisting of a carbon-fibre core, a poly(p-xylylene)-based thin-film co

26 ntinuous exocytosis that was detected with a carbon fibre electrode from dopamine-loaded cells (10 ce

27 ileum using electrochemical techniques with carbon fibre electrodes to measure local concentrations

28 Moreover, the carbon-fibre electrodes are highly flexible and can be s

29 arbon/GR, metal oxide/GR, metal/graphene and carbon fibre/GR have been investigated in more detail.

30 r, based on a flexible and stretchable short carbon fibre incorporated Polydimethylsiloxane composite

31 The long carbon fibres initiate the plasma by micro-spark dischar

32 nufacturing processes, such as thermoplastic carbon fibre manufacturing.

33 using in vitro continuous amperometry with a carbon fibre microelectrode and video imaging.

34 e was measured by fast cyclic voltammetry at carbon fibre microelectrodes in rat striatal slices.

35 ividual phaeochromocytoma (PC12) cells using carbon fibre microelectrodes to investigate the effects

36 Amperometric recordings using polarized carbon fibre microelectrodes were used to detect exocyto

37 ed with fast cyclic voltammetry at implanted carbon fibre microelectrodes.

38 n cyclic voltammetry to detect DA release at carbon-fibre microelectrodes in acute striatal slices fr

39 affin cells was monitored using amperometric carbon-fibre microelectrodes.

40 ither by mechanical loading of the cell with carbon fibres or by stretching the cell.

41 e resulted in the polymer immobilised on the carbon fibre paper electrode's surface.

42 e gas emissions around 99% lower than virgin carbon fibre production.

43 and volatile organic compounds (VOCs) from a carbon fibre reinforced epoxy composite matrix used in a

44 Carbon fibre reinforced polymers (CFRP) were introduced

45 f 98 kJ m(-2), which is twice that of purely carbon-fibre reinforced composites (44 kJ m(-2)).

46 Carbon fibre-reinforced polymers (CFRPs) are used in man

47 -class athletes without amputations, using a carbon fibre running-specific prosthesis (RSP).

48 to minimise diffusion of the catalyst in the carbon fibre substrate.

49 port that Si nanowires grown on a conducting carbon-fibre support provide a robust model battery syst

50 sent a plasma set-up consisting of a pair of carbon-fibre-tip-enhanced electrodes that enable the gen

51 ng - a coating applied to the surface of the carbon fibres to assist handling, improve the interfacia

52 at ventricular myocytes were stretched using carbon fibres to investigate the mechanisms underlying t

53 k, we use interply hybridization of silk and carbon fibres to reinforce epoxy-matrix composites.

54 th Jacquard UNIVAL 100 and creel of 3072 6 k carbon fibre tows were used to weave the designed honeyc

55 Myocytes were attached to carbon fibre transducers and stretched, sarcomere length

56 and compared them with classical commercial carbon fibres using large sample sizes (from 10 to 100 f

57 selling price of US$1.50 per kg for recycled carbon fibres whereas life cycle assessment shows proces

58 izing, namely carbon nanotubes (CNTs) on the carbon fibres, which in addition imparts electrical and

59 composites were fabricated from the recycled carbon fibres, which were recycled two more times, maint

60 vents and subsequently carbonised to produce carbon fibres with a circular cross-section.

61 th ex situ microscopy clearly shows nitrided carbon fibres with embedded iron particles that are not