ライフサイエンスコーパス: tip diameter

1 n that allows controlled increase of pipette tip diameter.

2 obe and inversely proportionate to the probe tip diameter.

3 losed in a glass outer case with a 30-microm tip diameter.

4 porcine lenses were divided into 2 mm cubes (tip diameter, 0.9 mm).

5 erage laser power in accordance to the fiber tip diameter: 0.85 W(range 0.8-0.92 W).

6 forces arising as an Atomic Force Microscope tip (diameter 20 nm) - simulating a nano-object - approa

7 yNeuroLab; semicircular tip: 3mm radius; CCI tip diameter: 3mm).

8 optic reflection-based pH micro (mu)-probes (tip diameter: 500-3000 nm) were designed and fabricated

9 nfluences of experimental parameters such as tip diameter and coating for nanoESI needles were invest

10 which can be varied by changing the emitter tip diameter, and on the solution composition.

11 approximately 250 microns) and a potassium (tip diameter approximately 1000 microns) ion-selective m

12 n used to adjust the distance of a chloride (tip diameter approximately 250 microns) and a potassium

13 developed oxygen-sensitive microelectrodes (tip diameter approximately 5 micro m) to measure the dis

14 e quantum-dot-coated nanopipette electrodes (tip diameters approximately 15-30 nm) to establish the f

15 y are often compromised, even with capillary tip diameters as small as 30 mum.

16 n enzyme-based glucose microsensor, 8-microm tip diameter, as a self-referencing electrode.

17 te that carbon fiber electrodes with reduced tip diameters can be used for imaging both the cell prop

18 tively the spatial resolution limited by the tip diameter in resolving two adjacent pores and to dete

19 n the normalized form are independent of the tip diameter, indicating diffusion-limited membrane tran

20 A tip diameter of 0.6 mm was needed to reach the base of t

21 circular cross section proximal probe with a tip diameter of 50 mum and fixed temperature (350 degree

22 Both electrodes had a nominal tip diameter of 7.5 microns.

23 producibly yield not only an extremely small tip diameter of approximately 30 nm, but also a substant

24 Positionable voltammetric cells with tip diameters of < 50 microm were constructed from theta

25 hods, microelectrodes can be fabricated with tip diameters of 1 to 3 microm.

26 Cavity CNPEs, with tip diameters of 200-400 nm, have high currents because

27 carbon-nanopipette electrodes (CNPEs), with tip diameters of a few hundred nanometers, have been dev

28 during periodontal probing using probes with tip diameters of either 0.40 mm or 0.63 mm.

29 cessfully achieved using a large size (20 nm tip diameter) polyethylene terephythalate (PET) nanopore

30 It was found that 2-microm tip diameter resulted in more reproducible spectra than

31 in more reproducible spectra than the larger tip diameters tested (6-20 microm).

32 Novel for its tip size (3-10-microm tip diameter), the microelectrode is fabricated in a tap

33 io of tip diameter to pitch and the ratio of tip diameter to base diameter.

34 he nanoscale pillars, including the ratio of tip diameter to pitch and the ratio of tip diameter to b

35 Tip diameters varied from 0.4 to over 1.0 mm in these st

36 An oxygen microsensor with a < 3-micron tip diameter was developed for monitoring oxygen levels