ライフサイエンスコーパス: heat dissipation

1 stradiol appears to promote vasodilation and heat dissipation.

2 ture (T(b)) by balancing heat production and heat dissipation.

3 structured phonon-polaritons to directional heat dissipation.

4 humidity-related constraints on evaporative heat dissipation.

5 dditional electron-hole pairs rather than by heat dissipation.

6 n of a perfect thermal diffuser with maximal heat dissipation.

7 ilm promising for applications in chip-level heat dissipation.

8 .e. skin blood vessels and sweat glands) for heat dissipation.

9 sing issues related to power consumption and heat dissipation.

10 sy means of efficient product separation and heat dissipation.

11 G headsets engineered for calibrated passive heat dissipation.

12 efore, obese individuals must increase their heat dissipation.

13 field strengths, and lower requirements for heat dissipation.

14 rs thermoregulatory adjustments that mediate heat dissipation.

15 er levels demand sophisticated solutions for heat dissipation.

16 anging from on-chip photonics to directional heat dissipation.

17 on plays an indispensable role in human body heat dissipation.

18 electronic packaging for achieving efficient heat dissipation.

19 conversion(5,6), quantum interference(7,8), heat dissipation(9,10) and electronic noise(11) at atomi

20 EC increased physical activity by +6.9%, heat dissipation after meals +1.3%, and carbohydrate oxi

21 These approaches unavoidably lead to heat dissipation and a temperature rise, which can modif

22 extensively in catalysis, electrochemistry, heat dissipation and biofiltration.

23 and silver-paste resin to facilitate passive heat dissipation and ensure mechanical and thermal stabi

24 In particular, TBR can dominate heat dissipation and has become increasingly important d

25 and petiole length, suggesting mechanisms of heat dissipation and leaf movability that link simple tr

26 The coupled imperatives for reduced heat dissipation and power consumption in high-density e

27 microsecond timescales due to the cooling by heat dissipation and results to a decrease of the averag

28 to the intrinsic radiative and nonradiative (heat dissipation and surface trapping) recombination pat

29 ting in positive feedback between vegetation heat dissipation and temperature gradient, thereby exten

30 nvestigate the interplay among Joule effect, heat dissipation and the external temperature [Formula:

31 However, heat dissipation and transport in atomic-scale devices r

32 f the copolymer film permits efficient Joule heat dissipation and, accordingly, excellent cyclic stab

33 large as 0.45%, which is not accompanied by heat dissipation, and, for excitation density of 8 mJ cm

34 n), anti-fogging surfaces, heat transfer and heat dissipation, anticorrosion, lithography, photochrom

35 Inoculation, aeration and heat dissipation are key parameters for maintaining fung

36 ion and provide the capability of sufficient heat dissipation at the waveguide.

37 tions requiring low output power and minimum heat dissipation at wavelengths extending from 3 mum to

38 tional semiconductors experience substantial heat dissipation because of carrier scattering.

39 stablished isothermal calorimetry to measure heat dissipation by living zebra-fish embryos and to est

40 Inadequate heat dissipation can lead to prohibitively large tempera

41 With known limited evaporative heat dissipation capacities in these birds, our results

42 retical analyses of the operating limits and heat dissipation characteristics are presented.

43 ermal properties (three times faster rate of heat dissipation compared to control samples).

44 the boron nitride nanosheets, which improve heat dissipation compared to pristine polymers (which ar

45 for high mechanical stiffness and efficient heat dissipation considering heat conduction and convect

46 l loading, utilizing saturated sand enhanced heat dissipation due to higher thermal conductivity.

47 in enhancing vapor generation rates, limited heat dissipation during condensation continues to constr

48 TII treatment increased gastrocnemius muscle heat dissipation during controlled activity, as well as

49 ermogenesis to restrain white adipose tissue heat dissipation during thermoneutrality and diet-induce

50 itate cutaneous vasodilatation, an important heat dissipation effector.

51 characterized by the episodic activation of heat dissipation effectors.

52 conditions will likely exacerbate limits to heat dissipation, especially for large, heat-sensitive a

53 ources enables more efficient diffusive-like heat dissipation, even from nanoscale heat sources much

54 patiotemporal resolutions, and its efficient heat-dissipation feature, is now poised to provide in si

55 porally resolved images reveal insights into heat dissipation, film uniformity, distribution of impur

56 It is this feature of waste heat dissipation following the input of energy that driv

57 rMn-based magnetic devices could harvest the heat dissipation for magnetic sensors, thus contributing

58 nsport properties be well understood because heat dissipation frequently limits performance in these

59 uction dramatically overpredicts the rate of heat dissipation from heat sources with dimensions small

60 lming experimental evidence for nondiffusive heat dissipation from nanoscale heat sources, the underl

61 , establishing a framework for understanding heat dissipation in a range of mesoscopic systems where

62 e to estimate thermodynamic efficiencies and heat dissipation in experimental studies of nanomachines

63 ective treatment of disease and the study of heat dissipation in integrated circuits.

64 rated nanoscale thermocouples to investigate heat dissipation in the electrodes of single-molecule ('

65 e degradation can be mitigated by minimizing heat dissipation in the pump lines.

66 Here, we demonstrate that heat dissipation in widely used cryogenic electronic dev

67 he reductive cleavage divisions, the rate of heat dissipation increases from ~60 nJ . s(-1) at the tw

68 The good heat dissipation inherent to the ultrathin format enable

69 In humans, impaired heat dissipation is a major mechanism by which cocaine e

70 ics that are strongly energy dependent, this heat dissipation is asymmetric--that is, unequal between

71 smoother than surrounding rural areas, urban heat dissipation is relatively less efficient and urban

72 Heat dissipation is then governed by tunnel loss, which

73 , while higher thermal conductivity enhances heat dissipation, leading to increased forming voltage.

74 In accordance with the heat dissipation limit theory which suggests that alloca

75 Heat dissipation limits are probably not a phenomenon re

76 devices that are more complex than a simple heat dissipation mechanism dominated by acoustic phonons

77 The results provide insights into heat dissipation mechanisms of Joule heated nanotube dev

78 swelling kinetics were found due to sluggish heat dissipation (millisecond time scale) from the sampl

79 nanodevices and aid in the understanding of heat dissipation near nanoscale hotspots, which is cruci

80 We study heat dissipation of a multi-wall carbon nanotube (MWCNT)

81 tics, which we demonstrate through the rapid heat dissipation of an elastomer-mounted extreme high-po

82 /semiconductor interfaces is crucial for the heat dissipation of electronics.

83 ing that these subunits are major players in heat dissipation of excess energy.

84 nts, thus, tackles the challenge of sluggish heat dissipation of the electroactive polymers and their

85 Ohm's Law plots confirm the superior heat dissipation of the HSCE capillary compared to a sim

86 ngth, suggesting the absolute resistance and heat dissipation of the substrate are also important.

87 otosystem II by increasing the nonradiative (heat) dissipation of energy in the antennae.

88 ing (or amorphization), phase-stability, and heat-dissipation of rock-salt GeSbTe, which is crucial f

89 skyrmions, but they either cause significant heat dissipation or require ultrahigh electric fields ne

90 Efficient heat dissipation permits high concentrations of the back

91 on utilization for photochemistry (PhiPSII), heat dissipation (PhiNPQ), and nonregulated quenching (P

92 High-efficient heat dissipation plays critical role for high-power-dens

93 Thus, graphene can be useful in solving heat dissipation problems such as those in nanoelectroni

94 Because the heat dissipation process is proportional to light-driven

95 try techniques is required to understand the heat dissipation processes during the device operation.

96 teristics of atomic-scale junctions to their heat dissipation properties, establishing a framework fo

97 al-side-down mounting that provides superior heat dissipation properties.

98 The recovery time, which measures the heat dissipation rate for equilibration, was found to be

99 f the magnetic layers, an enhancement of the heat dissipation rate into the adjacent substrate leads

100 The product -Jdeltamu gives the isothermal heat dissipation rate, which is necessarily non-negative

101 Effective heat dissipation remains a grand challenge for energy-de

102 for greater actuation performance, managing heat dissipation remains underexplored, which becomes cr

103 xidative stress underlies the impairments in heat dissipation that may occur in older adults, as well

104 particular, results are consistent with the heat dissipation theory of Speakman & Krol (2010) and pr

105 t human-body midinfrared radiation to retain heat dissipation, thereby delivering around 6 degrees C

106 ties in performance, largely due to improved heat dissipation through metal contacts.

107 hrough this mechanism, which prevents proper heat dissipation to the external environment, MDMA at a

108 However, the suspended design's poor heat dissipation under strong drive limits the ultimate

109 ding the head-the body part with the highest heat dissipation-under the feathers.

110 2) do not largely impact the distribution of heat dissipation, while GBs of MoS(2) appreciably locali

111 and splanchnic regions presumably to aid in heat dissipation, while simultaneously increasing heart

112 ission spectra, radiometric power, effective heat dissipation with a passive heat sink, and energy co

113 optimized solutions that harmonize efficient heat dissipation with effective EMI control.