ライフサイエンスコーパス: molecular sieve

1 el-like entity that acts as a size-dependent molecular sieve.

2 ow across the glomerulus without acting as a molecular sieve.

3 d functions as a high capacity, low affinity molecular sieve.

4 nteresting candidates for tunable atomic and molecular sieves.

5 alcohols often benefit from the presence of molecular sieves.

6 hol oxidation in the presence and absence of molecular sieves.

7 enerate full atomistic models for mesoporous molecular sieves.

8 ials, a newer and rapidly expanding class of molecular sieves.

9 it cell thick silicates that can function as molecular sieves.

10 ns, for example, as structural scaffolds and molecular sieves.

11 acement for boron in a suite of borosilicate molecular sieves.

12 , and the resulting membranes can be used as molecular sieves.

13 ligand-centred emission, ion exchangers and molecular sieves.

14 st was improved by adding polar additive and molecular sieves.

15 opylmethylcellulose was used as a matrix for molecular sieving.

16 atic activity was partially purified through molecular sieving.

17 ons influence ion discrimination by altering molecular sieving.

18 gents via thermodynamics and/or kinetics and molecular sieving.

19 Molecular sieves (4 A) and temperature were found to pla

20 sing 10 min of sample preconcentration (onto Molecular Sieve 5A) at a flow rate of 200 mL min(-1).

21 H(2)-selective (over other permanent gases) molecular sieving action through their c-axis-transport-

22 forate the capsid wall, which functions as a molecular sieve, allowing the exit of transcripts and th

23 search endeavors are pursued to target ideal molecular sieves among diverse porous materials, over th

24 econcentration stage, which employs a carbon molecular sieve and an adsorption/thermal desorption cyc

25 view of the outer membrane as an unspecific molecular sieve and indicate a higher degree of selectiv

26 the view that the C-terminus functions as a molecular sieve and stabilizer of the oligomeric MscL st

27 conductor type photocatalysts, such as Ti-Si molecular sieves and carbon quantum dots (CQDs), are als

28 als, including glasses, ceramics, mesoporous molecular sieves and catalysts, elastomers, resins, insu

29 in part by discriminative membrane-embedded molecular sieves and diffusion barriers, which serve to

30 ights gained from designing these artificial molecular sieves and filters, along with the promising r

31 s with respect to pure micro- and mesoporous molecular sieves and other hierarchical zeolites are cri

32 dsorption, shape selectivity in the pores of molecular sieves and the polarisation effect at the meta

33 Molecular sieving and differences in diffusivities were

34 of the mosquito Anopheles albimanus through molecular sieving and reverse-phase high-performance liq

35 etramers of purified GPI-PLC was detected by molecular sieving and shown to be perturbed with specifi

36 the higher later values are consistent with molecular sieving and transient binding of dissociated p

37 ensions has given rise to the definition of "molecular sieves" and has been the basis for a variety o

38 is partially reflected by the joint lining (molecular sieving), and that the reflected fraction R de

39 using CsCl density gradient centrifugation, molecular sieve, and ion exchange chromatography; and th

40 e complexes, alkali-exchanged stannosilicate molecular sieves, and amorphous TiO2-SiO2 coprecipitates

41 In the presence of cesium hydroxide, molecular sieves, and DMF, benzeneselenol undergoes dire

42 ferent applications like membranes, sensors, molecular sieves, and optoelectronics.

43 actionation techniques (microcon filtration, molecular sieving, and reversed-phase chromatography), w

44 se(s), we fractionated purified rat p67 with molecular sieve, anion exchange, and cation exchange chr

45 Crystalline molecular sieves are used in numerous applications, wher

46 lyoxylate as the aldehyde component, and 3 A molecular sieves as an additive.

47 ns at room temperature in the presence of 4A molecular sieves as dehydrating agent.

48 Ultracentrifugation and graded molecular sieving, as well as a sensitive sandwich enzym

49 hanesulfonate as catalyst in the presence of molecular sieves at -78 degrees C.

50 y removed under vacuum or in the presence of molecular sieves, B(C(6)Cl(5))(3) (6) is completely stab

51 s of chabazite zeolites, what appears to be "molecular sieving" based on dimension is actually separa

52 dry state but, if immersed in water, act as molecular sieves, blocking all solutes with hydrated rad

53 As the synthetic zeolite (molecular sieve) business began to take hold in the late

54 t exclusion of the large particles is due to molecular sieving by the dense meshwork of microfilament

55 The results demonstrate size-selective molecular sieving by the synovial extracellular matrix,

56 el polymeric supports and the use of zeolite molecular sieves can also increase solvent tolerance, en

57 acets can be exposed, to achieve competitive molecular sieving capabilities.

58 Microporous molecular sieve catalysts and adsorbents discriminate mo

59 ls have important industrial applications as molecular sieves, catalysts and in gas separation and st

60 es the effects of manganese oxide octahedral molecular sieve chitosan microspheres (Fe3O4@OMS-2@CTS)

61 In addition, molecular-sieve chromatographic analysis showed that the

62 s C formed soluble aggregates as detected by molecular sieve chromatography and dynamic light scatter

63 lt in disulfide-linked oligomers as shown by molecular sieve chromatography and SDS-polyacrylamide el

64 ynamic size of proteoglycans as evidenced by molecular sieve chromatography but increased sulfate inc

65 ncluding heparin-affinity, ion exchange, and molecular sieve chromatography followed by trypsin diges

66 Estimation of the native molecular weight by molecular sieve chromatography gave a value of approxima

67 Molecular sieve chromatography of supernatant from serot

68 4 M guanidine hydrochloride and separated by molecular sieve chromatography on a Sepharose CL-4B colu

69 on exchange chromatography on DEAE-Sephacel, molecular sieve chromatography on Sephacryl S-100, chrom

70 Anomalous elution on molecular sieve chromatography suggested that the variab

71 ochemical characterization, a combination of molecular sieve chromatography, immunoblotting, and nucl

72 The digest was fractionated by molecular sieve chromatography, monitoring for peptide a

73 antly expressed and purified by affinity and molecular sieve chromatography.

74 m sulfate precipitation and ion-exchange and molecular sieve chromatography.

75 Most importantly, molecular sieving chromatography indicates the presence

76 oglycans were separated on a Sepharose CL-4B molecular sieve column and identified by their core prot

77 e has a molecular mass of 90 kD as judged by molecular sieve column chromatography and by sodium dode

78 -Lym-1 products were purified by centrifuged molecular sieving column chromatography.

79 Chromatography with molecular sieving columns revealed that HSP20 and alphaB

80 Fractionation of alpha-granule proteins on molecular sieving columns using conditions known to be p

81 mitochondrial NDP kinase protein migrates in molecular sieving columns with an apparent molecular mas

82 ded to produce an interwoven mesh of polymer-molecular sieve composite fibers.

83 regarded as a typical silicoaluminophosphate molecular sieve, constitutes instead a new family of ino

84 th high pressure ethylene over a pure-silica molecular sieve containing framework tin (Sn-Beta) to pr

85 nversion or in the presence of a pure-silica molecular sieve containing framework zirconium (Zr-Beta)

86 e very few examples of hydrothermally stable molecular sieves containing extra-large pores.

87 The CD is apparently a molecular sieve covering the channel that optimizes loss

88 TPA) hydroxide evolve to TPA-silicalite-1, a molecular-sieve crystal that serves as a model for the s

89 osity on the surface of dealuminated zeolite molecular sieves (DAZMS) for CO oxidation under actual a

90 A family of mesoporous molecular sieves (denoted MSU-G) with vesiclelike hierar

91 ic frameworks (COFs) are good candidates for molecular sieves due to the chemical diversity of their

92 ntly, secreted proteins were concentrated by molecular sieving during culture, perhaps contributing t

93 nder mild conditions (triethylamine (TEA) or molecular sieves) easily led to the corresponding difluo

94 hree new MAMSs all exhibit temperature-tuned molecular sieving effect.

95 Molecular sieves enhance the rate of the Pd(OAc)2/pyridi

96 Mesoporous molecular sieve fibers have been produced in our lab, an

97 mplications for manufacturing thin, oriented molecular sieve films and realizing new selective, molec

98 Interest in molecular sieve films stems from their potential for ene

99 This process produces selective molecular sieve films that are as thin as 100 nm and exh

100 hierarchically ordered porous materials and molecular-sieve films, but still remain elusive.

101 erials, over the past several decades, ideal molecular sieves for the separation and purification of

102 V) light exposure, the hydrogel toggles from molecular sieving for size-based separation to a covalen

103 ed bacteria, proteins are strained through a molecular sieve formed by the transiently damaged bacter

104 epresent a paradigm shift in conceptualizing molecular sieves from conventional ordered frameworks to

105 the self-assembly chemistry for formation of molecular sieves from guest organocations and inorganic

106 ctionalized peptide, in the presence of 10-A molecular sieves, functions as an enantioselective catal

107 They can find applications in molecular sieves, gas storage, catalysts, adsorbents, ba

108 of new functional materials such as tunable molecular sieves, gated membranes and controlled-release

109 introduction of antibody into and along the molecular sieving gel requires that the probe must trave

110 develop a technique for fabrication of PAGE molecular sieving gels in PDMS microchannel networks.

111 lectularius apyrase fractions eluted from a molecular sieving high pressure liquid chromatography an

112 ce-filling organocation in determining which molecular sieve host structure will be specified.

113 The molecular masses, as determined by molecular sieve HPLC, of mutants with deletions of 1, 5,

114 c studies demonstrated the essential role of molecular sieves in this complex amidation process.

115 hese observations of kinetic isotope quantum molecular sieving in porous materials are due to the lar

116 incorporating zeolites (or other nanoporous molecular sieves) in polymeric materials.

117 Realization of ideal molecular sieves, in which the larger gas molecules are

118 oaches, we discovered a family of mesoporous molecular sieves including discrete structures - MCM-41

119 in-situ IR spectroscopic studies reveal that molecular sieves inhibit the disproportionation of H2O2,

120 ous materials are being developed for use as molecular sieves, ion exchangers, and catalysts, but mos

121 Given their importance as molecular sieves, ion exchangers, catalysts and catalyst

122 This class of molecular sieves is easily converted to perovskite throu

123 A new molecular sieve, ITQ-38, containing interconnected large

124 rise to three isostructural mesh-adjustable molecular sieves (MAMSs), MAMS-2, MAMS-3, and MAMS-4, re

125 proved catalyst stability in the presence of molecular sieves, manifested by higher catalytic turnove

126 Molecular sieving materials are widely regarded as the n

127 n membranes for these processes are based on molecular sieving materials to simultaneously achieve hi

128 The gel layer functions as both a molecular sieving matrix during PAGE and a blotting scaf

129 ous suggestion that the beneficial effect of molecular sieves may arise from their ability to promote

130 s a further impact on the design of advanced molecular sieving membrane materials for gas separation,

131 However, most polymeric molecular sieve membranes are based on a few solution-pr

132 We created free-standing carbon molecular sieve membranes that translate the advantages

133 ng strategy for the preparation of polymeric molecular sieve membranes with hierarchical and tailorab

134 for a wide range of applications, including molecular sieve membranes, catalytic membrane reactors,

135 us supports, facilitating the fabrication of molecular sieve membranes.

136 ial to improve the separation performance of molecular-sieve membranes.

137 ible polymer membranes and traditional rigid molecular-sieve membranes.

138 ge thin films are formed and demonstrated as molecular-sieving membranes for selective gas separation

139 Ultrathin, molecular-sieving membranes have great potential to real

140 molecules are fabricated into thin films and molecular-sieving membranes.

141 Molecular sieving metal-organic framework (MOF) membrane

142 of particle radius is better fitted by three molecular sieving models than by a slit pore model.

143 and secondary amines in the presence of 4 A molecular sieves (MS) afforded products with up to 99% e

144 Molecular sieves (MS) significantly accelerated the reac

145 nstrating ultrafast water transport, precise molecular sieving of gas and solvated molecules shows gr

146 adsorption kinetics based separation and/or molecular sieving of gases and vapors.

147 e of the windows, it allows in principle for molecular sieving of gases such as H(2) and CH(4).

148 The changes in [HA] demonstrated synovial molecular sieving of HA.

149 Molecular sieving of prechallenge BAL fluid from three a

150 cal Microscopy (SECM) has been used to image molecular sieving of redox active probes by thin, electr

151 oximately 40 mM, rt, CH2Cl2, piperidine/AcOH/molecular sieves) of a dihydrodipyrrin-carboxaldehyde (A

152 ingle crystalline manganese based octahedral molecular sieve (OMS) nanowires on silicon substrates, a

153 This report explores the effect of molecular sieves on the Pd(OAc)2/pyridine and Pd(OAc)2/D

154 The development of novel molecular sieves opens opportunities in the development

155 potential for technological applications as molecular sieves or in catalysis.

156 alysts by encapsulation, the introduction of molecular sieving or stimuli-responsive "auxiliary" func

157 es in samples of silica aerogels and zeolite molecular sieve particles.

158 The nanoporous PAG molecular sieve physically induces a mobility shift that

159 attract intense interest due to their unique molecular sieving properties combined with fast permeati

160 pores within microporous polymers and their molecular sieving properties.

161 and exhibit very interesting and unexpected molecular sieving properties.

162 use of their high internal surface areas and molecular-sieving properties.

163 Outflow buffering arises from the molecular sieving (reflection) and concentration polariz

164 mblies (squares) for selective catalysis and molecular sieving revealed two function-inhibiting struc

165 The electroluminescent polymer MEH-PPV and molecular sieve SBA-15 were used to produce the composit

166 The trap consists of a zeolite molecular sieve, selected for efficient trapping of the

167 The molecular sieve silicalite (Union Carbide; = Al-free Mob

168 atly encapsulated in 10-ring channels of the molecular sieve silicalite-ZSM-5-(mutinaite).

169 Sandia octahedral molecular sieves (SOMS) is an isostructural, variable co

170 he potential use of this device as a generic molecular sieving structure for an integrated biomolecul

171 -filter (nanofilter) array (ANA) is a unique molecular-sieving structure for separating biomolecules.

172 c and angled nanofilter arrays served as the molecular sieve structures to conduct a continuous size-

173 Membranes made from polymeric molecular sieves such as polymers of intrinsic microporo

174 he more conventional environment for zeolite/molecular sieve syntheses involving silicate chemistry).

175 the S-layer of Bacillus anthracis acts as a molecular sieve that is chiefly size-dependent, favoring

176 nt of these capillaries constitutes the main molecular sieve that normally retains albumin and allows

177 e S-layer model reveals a negatively charged molecular sieve that presents both a charge and size bar

178 They also act as molecular sieves that isolate the virus genome from host

179 In the presence of molecular sieves, the ester production increased to 62.9

180 he first successful synthesis of a specified molecular sieve through the use of an OSDA that was pred

181 into the application of alpha-hemolysin as a molecular sieve to differentiate nanostructures as well

182 ee grades of graphitized carbon and a carbon molecular sieve to quantitatively remove most organic co

183 metrical ratchet can be used as a continuous molecular sieve to separate mixtures of membrane-associa

184 al effects is associated with the ability of molecular sieves to absorb water, a stoichiometric bypro

185 d the effect is attributed to the ability of molecular sieves to serve as a Bronsted base.

186 This molecular sieving type separation is attributed to the p

187 The stability of the modified molecular sieves was monitored by (29)Si-MAS NMR, transm

188 mple, biomimetic ion transport manipulation, molecular sieving, water treatment, and nanofluidic ener

189 nes and arylboronic acids in the presence of molecular sieves were developed.

190 Molecular sieves were found to have a considerable effec

191 they can be used, at least in principle, as molecular sieves where molecules smaller than the window

192 licable to other cage-containing microporous molecular sieves, where some of the most industrially re

193 known one-dimensional microporous octahedral molecular sieve with manganese oxide framework.

194 n a faujasite-type zeolite, the archetype of molecular sieves with cages and the most widely used as

195 of preparing other thermally stable silicate molecular sieves with extra-large pores.

196 onsideration are shape-selective microporous molecular sieves with hierarchical pore morphologies of

197 films demonstrate exceptional performance as molecular sieves with high gas permeabilities and good s

198 ranes demonstrate exceptional performance as molecular sieves with high gas permeabilities and select

199 e semiconducting and catalytic properties of molecular sieves with mixed-valent frameworks.

200 Based on surface-catalytic processes in molecular sieve zeolites, I proposed that some natural f

201 We fabricated continuous molecular sieving ZIF-8 membranes in single and multiple