ライフサイエンスコーパス: aluminum oxide

1 ed mineral surfaces in soils (e.g., iron and aluminum oxides).

2 of 1-3 nm interleaved by 1-3 nm of amorphous aluminum oxide.

3 Anodic aluminum oxide (AAO) coupons with nanoscale topography w

4 ic (GC) column employing a mesoporous anodic aluminum oxide (AAO) layer as the stationary phase was d

5 roelectric polymer nanowire array and anodic aluminum oxide (AAO) membrane is reported, which display

6 algorithm integrated with regenerable anodic aluminum oxide (AAO) membrane sensors, for ultrasensitiv

7 rectified electrokinetic IT through anodized aluminum oxide (AAO) membranes containing densely packed

8 Anodic aluminum oxide (AAO) membranes incorporating 10 and 20 n

9 tion from dual templates using porous anodic aluminum oxide (AAO) membranes with silica nanospheres s

10 sphocholine (DOPC) vesicles on porous anodic aluminum oxide (AAO) membranes, creating sealed attolite

11 noporous block-copolymer monoliths to anodic aluminum oxide (AAO) membranes.

12 by an electrodeposition method within anodic aluminum oxide (AAO) membranes; L-cysteine was used to f

13 ned by using R2R UV-NIL technique and anodic aluminum oxide (AAO) mold.

14 40 K using an aluminum surface with anodized aluminum oxide (AAO) nanoporous texture finish.

15 ycine in the cylindrical nanopores of anodic aluminum oxide (AAO) revealed the formation of metastabl

16 Anodic aluminum oxide (AAO) substrates with flow-through 175 nm

17 synthesized directly onto a porous anodized aluminum oxide (AAO) support, the resulting films were u

18 the nanostructured aluminum oxide or anodic aluminum oxide (AAO) surface is reported.

19 anopore-based sensors fabricated from anodic aluminum oxide (AAO) thin film, offers improved sensitiv

20 (imide) or poly(imide) coated with amorphous aluminum oxide (AAO), amorphous carbon (AC), parylene, p

21 evice fabrication, is used to grow conformal aluminum oxide activation coatings, down to sub-nanomete

22 Aluminum oxide (Al(2)O(3)) nanopowder is spin-coated ont

23 u nanoparticles (NPs) 13 nm in diameter with aluminum oxide (Al(2)O(3)) particles 50-200 mum in diame

24 Sorption to redox-inert aluminum oxide (Al(2)O(3)) was recently found to affect

25 (2)), with a nominal pore size of 30 nm, and aluminum oxide (Al(2)O(3)), with a nominal pore size of

26 p Effective, Rugged and Safe (QuEChERS) with aluminum oxide (Al2O3) as dispersive solid phase extract

27 erein, we discovered that the earth-abundant aluminum oxide (Al2O3) though paradigmatically known to

28 Namely, anodized aluminum oxide (Al2O3, 2-20 nm) and self-assembled monol

29 The anodic aluminum oxide alignment method is applicable to a broad

30 utilizing various insulating spacers such as aluminum oxide (AlOx) and magnesium oxide (MgO) on a wid

31 ch included sample purification on activated aluminum oxide and elution, is less than 1 h per 96-well

32 ely correlating with soil clay, and iron and aluminum oxide and hydroxide content.

33 hanisms by combining two ordinary compounds, aluminum oxide and polymethyl methacrylate, into ice-tem

34 ere printed on niobium wires, insulated with aluminum oxide, and the bridge cut with focused ion beam

35 iorhodopsin (bR) deposited on gold, aluminum/aluminum-oxide, and nickel substrates.

36 al aluminum dopants in lithium nickel cobalt aluminum oxide are partially dissolved in the bulk latti

37 ive excitations have been observed in liquid aluminum oxide at high temperatures by combining a conta

38 ectride composed of a mixture of calcium and aluminum oxides (C12A7) have attracted great attention f

39 We show that amorphous aluminum oxide can permanently deform without fracture a

40 Metal oxides such as ferric or aluminum oxides can play an important role in the retent

41 When mixed with a platinum/aluminum oxide catalyst and aged in air at 800 degrees C

42 Hydration reactions of anionic aluminum oxide clusters were measured using a quadrupole

43 Beginning from a highly active cobalt aluminum oxide (CoAl(2)O(4)) catalyst that is susceptibl

44 uration using water-in-salt electrolytes and aluminum oxide coated anodes.

45 tive sites over commercial copper/zinc oxide/aluminum oxide (Cu/ZnO/Al2O3) catalysts for carbon dioxi

46 interface of ultrathin PMMA films on native aluminum oxide, deposited by reactive adsorption, was st

47 mismatch between the GaAs and ALD-deposited aluminum oxide due to their different coefficients of th

48 that has been coated and passivated with an aluminum oxide film deposited by atomic layer deposition

49 s surface is invariably covered with a dense aluminum oxide film, which prevents its effective use as

50 s species of varied dimensions within hybrid aluminum oxide films, we created membranes with tunable

51 ltration to capture viruses on a 0.02-microm aluminum oxide filter, and subsequent staining and mount

52 d reduction in volume filtered, selection of aluminum oxide filters, selection of blue laser and lack

53 r chemistry and structure toward more stable aluminum oxide forms.

54 Aluminum oxide ([Formula: see text])-based single-electr

55 single crystals, prepared with an amorphous aluminum oxide gate insulator, are capable of ambipolar

56 ce, taken as a model for surfaces of natural aluminum oxide hydrates.

57 The reactivity of aqueous Fe(II) with aluminum oxide in anoxic solutions was investigated with

58 portant long-chained phosphate molecules) on aluminum oxides in the presence of divalent metal cation

59 enic silica, clays, and iron, manganese, and aluminum oxides in the Southern Ocean water column.

60 Aluminum oxide is important cosmically, because its pres

61 Heterogeneous coprecipitation of iron and aluminum oxides is an important process for pollutant im

62 y deep reactive ion etching through a porous aluminum oxide layer.

63 To demonstrate the method's capabilities, aluminum oxide layers, common supports in catalysis and

64 Nanoporous aluminum oxide layers, grown by anodization of aluminum

65 s silicon oxide (m/z(-) 59.96 SiO(2)(-)) and aluminum oxide (m/z(-) 101.95 Al(2)O(3)(-)), and biofilm

66 er solution into the system through a porous aluminum oxide membrane results in the growth of highly

67 x of neutral solutes through each fabricated aluminum oxide membrane was measured for the demonstrati

68 Homochiral mesoporous anodic aluminum oxide membranes (AAO) were prepared by coating

69 Copper electrodeposits are grown in anodized aluminum oxide membranes with polyelectrolyte coatings t

70 edded within the cylindrical pores of anodic aluminum oxide membranes.

71 of short-chain PFAS largely is controlled by aluminum-oxide mineral(oid) electrostatic sorption, wher

72 mary particle surface and partially exist as aluminum oxide nano-islands that are epitaxially dressed

73 Insulating aluminum oxide nanocrystals are assembled layer by layer

74 rmal layers of amorphous silicon dioxide and aluminum oxide nanolaminates at rates of 12 nanometers (

75 In the case of 30-nm-thick aluminum oxide nanolattices, the anelastic deformation a

76 by modifying the active side of the MCs with aluminum oxide nanoparticles (AONP) for purposes of enha

77 arbon, nanostructured graphite, and iron and aluminum oxide nanoparticles showed particular promise,

78 In this paper, we show that aluminum oxide nanoparticles that are covalently coupled

79 The nanofluid consists of DI-water, 0.10% Aluminum Oxide nanoparticles with an average diameter of

80 Fabricated separators based on aluminum oxide nanowires enhanced the safety and rate ca

81 stoichiometric NMC and lithium nickel cobalt aluminum oxide (NCA) but appears to be common to other L

82 is is achieved by atomic layer deposition of aluminum oxide on Ag NCs and addition of a tetra-topic p

83 eacon biosensors based on the nanostructured aluminum oxide or anodic aluminum oxide (AAO) surface is

84 icles are millimeter-scale particles made of aluminum oxide or stainless steel with micron-scale proj

85 ographically patterned grids of photoresist, aluminum oxide, or gold on oxidized silicon substrates w

86 Aluminum oxides, oxyhydroxides, and hydroxides are impor

87 Porous anodized aluminum oxide (pAAO) is a nanostructured material, whic

88 low-cell is a disposable chip made of porous aluminum oxide (PAO), which retains the sensor microorga

89 Radiopaque aluminum oxide particles from abrasive cautery-tip clean

90 g with relatively high solar reflectance and aluminum oxide particles that strongly scatter sunlight

91 me preparation was covalently immobilized on aluminum oxide pellets (3 mm) under statistically optimi

92 ees C are integrated with solution-deposited aluminum oxide phosphate dielectrics in functional trans

93 a novel and easy to produce reusable porous aluminum oxide sample slide that minimizes visceral fat

94 In comparison to pure alumina, nickel aluminum oxide samples exhibited larger mesopores and im

95 Sulfated aluminum oxide (SAO), a high surface area material conta

96 We first employed an anodized aluminum oxide scaffold with uniform channel dimensions

97 ed by calcium and iron sulfates, silicon and aluminum oxides, sodium carbonate, and iron sulfide.

98 Anodic aluminum oxide substrates with macroscopically aligned h

99 of the compound likely adsorb onto the polar aluminum oxide surface and direct the self-assembly path

100 Deposition and release behavior of GO on aluminum oxide surface is very similar to positively cha

101 he absence of glyphosate, Zn adsorbed on the aluminum oxide surface mainly as bidentate mononuclear s

102 Aluminum oxide surface was used as a model metal oxide s

103 n polyacrylic acid (PAA) layer with a native aluminum oxide surface.

104 ent on alginate, followed by SRFA, SRHA, and aluminum oxide surfaces, and that GO displayed higher in

105 witchable molecules for functionalization of aluminum oxide surfaces.

106 recise pore dimensions, based on an anodized aluminum oxide template, to enable quantitative analysis

107 crosslinked within the pores of an anodized aluminum oxide template.

108 n nanohelices from nanoparticles in anodized aluminum oxide templates.

109 grown metal nanorod arrays in porous anodic aluminum oxide templates.

110 ike, and stepwise are prepared from anodized aluminum oxide templates.

111 rarchically branched nanopores inside anodic aluminum oxide templates.

112 The aluminum oxide that adheres to the metal surface protect

113 ss utilizes atomic layer deposition (ALD) of aluminum oxide to conformally insulate a gold-coated nan

114 nd 70 nm) was used as an analogue of natural aluminum oxides to investigate the particle size effect.

115 used for the synthesis of mesoporous nickel aluminum oxide was demonstrated by preparation of other

116 he extent of reduction of U(VI) presorbed to aluminum oxides was semiquantitatively estimated by comp

117 chemical composition abundant in silicon and aluminum oxides, was incorporated into ordinary concrete

118 stantial change in the chemical shift of the Aluminum oxide when switching between the "OFF" and "ON"

119 oposal of an adsorption mechanism of PMMA on aluminum oxide, which shows the formation of methanol at

120 ate, track-etch polyimide, nanoporous anodic aluminum oxide, zeolite ZSM-5, and zeolite NaY.