ライフサイエンスコーパス: tint

1 through direct or indirect participation of tint.

2 Interestingly, single particles tint 4 times faster and cycle 20 times more reversibly t

3 bsorption throughout the visible region as a tinting additive, suggesting uses such as broad-spectrum

4 gen load correlated with a sharp drop in the Tint cell population and subsequent loss of the ongoing

5 manufacturing and found in colorants used to tint consumer paints sold in the United States and elsew

6 the cornea and its control with a dark-iris tinted contact lens.

7 Longer nanorods tint darker than shorter nanorods and exhibit a Li-ion g

8 ed how particle-particle interactions impact tinting dynamics and reversibility as the nanorod buildi

9 h visual mode switching for a strongly color-tinted environment, where adaptation causes the dominant

10 Over the centuries these tints evolved from raw earths to molecular masterpieces

11 xhibit a particle-dependent waiting time for tinting (from 100 ms to 10 s) due to Li-ion insertion at

12 The tint gene was the first of the latter to be identified.

13 activity (TAC), color density (CD), and hue tint (HT), using a full factorial design.

14 Surprisingly, tint interacts with T2 but not with T1.

15 required to prove or disprove the ability of tinted intraocular lenses to aid in preventing the progr

16 neration (AMD) have led to the use of yellow tinted IOLs in cataract surgery to filter short waveleng

17 rovements in visual comfort they report when tinted lenses are worn.

18 ge) were recruited who had successfully worn tinted lenses for at least 6 months and were compared wi

19 Tinted lenses have been widely publicized as a successfu

20 istent with the absence of any effect of the tinted lenses in the group with MIS.

21 manufactured as a thin, transparent, yellow-tinted membrane.

22 ch more challenging than that of their sepia-tinted memories.

23 ral phenazine, is responsible for the bluish tint of sputum and pus associated with P. aeruginosa inf

24 Window films and EC glass tints outperformed fabric shades in visual acuity, contr

25 ller placentae and lighter foals relative to TinT (P < 0.05).

26 oliferative, antigen-dependent intermediate (Tint) population with a memory-effector hybrid phenotype

27 ation approaches aimed at the development of Tint populations might prove effective against pathogens

28 The EC tints pose internal reflection issues and fabric shades

29 on-insertion kinetics contribute to variable tinting rates and magnitudes across large-area smart win

30 camera for imaging through smoke, through a tinted screen, whilst performing compressive sampling an

31 stablish eight Thoroughbred-in-Thoroughbred (TinT), seven Pony-in-Pony (PinP), five Thoroughbred-in-P

32 faction with the exception of the darkest EC tint state and dark grey VLT 3% shade for color sensitiv

33 s and placental area at birth were larger in TinT than in PinP pregnancies (P < 0.05).

34 t appeared dull white with a slight brownish tint that failed to sporulate on standard media.

35 s may reflect a tendency to attribute bluish tints to the illuminant rather than the object, consiste

36 and PC, pure blue colours devoid of a violet tint were exclusively observed for the phenolic extracts

37 Artificially aged wool samples tinted with indigo carmine (IC) dye served as a case stu

38 hed sponge cakes acquired a pleasant reddish tint, with the raspberry sponge cake (GFR) receiving the