ライフサイエンスコーパス: adsorption

1 lead (Pb), and copper (Cu) from solution via adsorption.

2 ion can increase pH slightly and cause As re-adsorption.

3 ction intermediates, usually through surface adsorption.

4 hat the IR responses are perturbed by PyH(+) adsorption.

5 of tau2 = 610 +/- 30 ms depending on H3O(+) adsorption.

6 s the blocking agent to prevent non-specific adsorption.

7 ompass molecular separations, catalysis, and adsorption.

8 ve measurement approaches to monitor protein adsorption across different temperatures would advance u

9 lts in terms of both kappa-Kohler theory and adsorption activation theory for inclusion in atmospheri

10 onformational change undergone by AS-48 upon adsorption affects its digestibility.

11 ecome increasingly important with increasing adsorption affinity for solid surfaces.

12 in highly mobile compounds that exhibit low adsorption affinity for solid surfaces.

13 o a larger extent than Cu and Pb, reflecting adsorption affinity to all filter materials in the order

14 ion suggests that the oxalate also alters Ni adsorption affinity.

15 The kinetic adsorption allowed determination of an average adsorptio

16 energy oxygen (O2(+)/O(+))-ion for chemical adsorption and a low energy Ar(+)-ion (11.2 eV) for phys

17 e nanoparticles have high capacity for U(VI) adsorption and can be easily separated from the aqueous

18 cules to improve the performances of MOFs in adsorption and catalysis.

19 vers recent advances in our understanding of adsorption and chemical reactions mediated by PCM and th

20 c modified surfaces induced the highest mass adsorption and could promote conformational changes of t

21 We report a detailed study of the adsorption and decomposition of a nerve-agent simulant,

22 se experimental probes into the mechanism of adsorption and decomposition of chemical warfare agent s

23 ptible to contamination owing to nonspecific adsorption and desorption on the substrate surface.

24 The rate constants of adsorption and desorption processes of resorufin were ch

25 xygen molecules on monolayer graphene during adsorption and desorption.

26 e mechanisms, energetics, and dynamics of O2 adsorption and dissociation.

27 decades major advances in understanding the adsorption and phase behavior of fluids confined in orde

28 Adsorption and redox transformations on clay mineral sur

29 The fast adsorption and slow chain rearrangement in the first reg

30 aging process and its role in ionic nutrient adsorption and supply remain unclear.

31 described the observations in terms of anion adsorption and surface oxidation/reduction.

32 IL-53(Cr) nanocrystals upon reversible water adsorption and temperature changes.

33 Surfactant adsorption and the dilatational modulus are also strongl

34 ic antigen recognition, poor molecular probe adsorption and the need for sample dilution are still co

35 ir applications in cell imaging, organic dye adsorption, and drug delivery are examined.

36 is remarkably efficient at promoting calcium adsorption, and results in the formation of biomimetic h

37 have foreseen the storage of natural gas by adsorption (ANG) in porous materials, at relatively low

38 We conclude that, for shape selective adsorption applications, the globally optimal material w

39 The experimental isosteric heats of adsorption are nearly proportional to the atom-atom (or

40 hment of particles on oil in comparison with adsorption, as commonly assumed.

41 ed here should facilitate the development of adsorption assays based on nfGNPs for HPV detection and

42 ogen isotopes from hydrogen gas by selective adsorption at Cu(I) sites in a metal-organic framework.

43 e constituents, we direct their preferential adsorption at the air-liquid (bubble) interface or withi

44 alkali cations along the step weaken the OH adsorption at the step sites, causing a positive shift o

45 e first study predicting gammai for bisolute adsorption based on molecular descriptors.

46 tion characterizing the relationship between adsorption behavior and bioavailability of CNM-adsorbed

47 ted the changes in surface chemistry and the adsorption behavior of ammonium and phosphate.

48 Understanding the gas adsorption behavior on shale is necessary for the design

49 guest molecules, which qualitatively impacts adsorption behavior.

50 ic and diffuse layer models to predict U(VI) adsorption behaviors across a range of ionic strength (1

51 Direct observation and quantification of the adsorption, binding domains and dynamics of guest I2 mol

52 and accelerated biodegradation rate, forming adsorption-biodegradation coupled bioremediation.

53 Those parameters were related to adsorption breakthrough time and capacity.

54 However, REE adsorption by bioengineered systems has been scarcely do

55 ferent pore openings, markedly different gas-adsorption capacities and different CO2 versus CH4 selec

56 In addition, the methane adsorption capacities increase after bio-treatment, whic

57 ural and chemical features of POPs and their adsorption capacities is discussed, mainly focusing on t

58 conditions, the relative standard deviation, adsorption capacity and limit of detection were 2.3%, 80

59 The evolution of the dye adsorption capacity and solar cells parameters are explo

60 -LS > Fluv CWs, reflecting the highest metal adsorption capacity and the lowest hydraulic conductivit

61 significant surface activity, with a higher adsorption capacity at the A/W interface and penetration

62 nins was obtained with XAD-16N, 42%, with an adsorption capacity of 183+/-18mgPGE/g resin, and a deso

63 Maximum adsorption capacity of eggshell was achieved as 923mgg(-

64 The adsorption capacity of modified silica gel was 5.90mgg(-

65 The adsorption capacity of the adsorbent for lead was found

66 nd initial ion concentrations) effecting the adsorption capacity of the nanocomposites were optimized

67 Although Dowex Mac 3 had the highest adsorption capacity, material costs ($/g N removed) were

68 used to determine the breakthrough time and adsorption capacity.

69 ical wastewater treatment technologies, e.g. adsorption, catalysis, separation, and disinfection.

70 ift, and demonstrate that cation-hydroxyl co-adsorption causes the apparent pH dependence of "hydroge

71 naccessible pores blocked away from the main adsorption channels.

72 (i) gel permeation chromatography (GPC) and adsorption chromatography using (ii) deactivated and (ii

73 as produced, characterized and applied in an adsorption column, to pretreat methylene blue (MB) waste

74 e show that the formation of an inner-sphere adsorption complex may be a necessary step for the redox

75 report the structures and properties of the adsorption complexes of arsenous acid (As(OH)3) on hydra

76 adsorption, including the registries of the adsorption complexes, adsorption energies, and structura

77 al and synthetic nontronites forms identical adsorption complexes, namely inner-sphere binuclear bide

78 er experiments with varying regeneration and adsorption conditions suggested that the regeneration pr

79 elative alkoxide stabilities; the respective adsorption constants are obtained from in situ infrared

80 rks (MOFs) have shown promising behavior for adsorption cooling applications.

81 Cation adsorption curves for four adsorbents (clinoptilolite, b

82 e model can successfully simulate the entire adsorption data set over all uranium loadings, pH values

83 rption of ammonium increased while phosphate adsorption decreased.

84 gh magnitude of its differential enthalpy of adsorption (Deltahads = -73 +/- 1 kJ/mol), with a larger

85 arger than expected entropic penalty for CO2 adsorption (Deltasads = -204 +/- 4 J/mol.K) positioning

86 The electronic basis for the cooperative adsorption demonstrated here could provide a general str

87 of membrane-associated processes, including adsorption, desorption and crowding.

88 Results from adsorption-desorption and GC headspace analyses showed t

89 ray photoelectron spectroscopy, and nitrogen adsorption-desorption characterization techniques.

90 e number (thousand) of conducted water vapor adsorption-desorption cycles.

91 Real-time observations of adsorption/desorption at the molecular-scale elucidate e

92 Five consecutive adsorption/desorption cycles were carried out, showing a

93 of water and can be subjected to 1000 humid adsorption/desorption cycles with minimal degradation.

94 The Arrhenius plot of the adsorption/desorption rate constants measured from 9 to

95 ed on various stimuli, such as heat, solvent adsorption/desorption, or electrochemical action (in sys

96 in bottom-up synthesis: metal and chalcogen adsorption/desorption/diffusion on substrate and grown T

97 By increasing the adsorption duration, vitamin B12 molecules gradually dif

98 It is shown here that a combined diffusion-adsorption effect can increase protein concentration ins

99 An interesting surface adsorption effect was also demonstrated.

100 The SENT adsorption efficiency is >99.4% for all metals and the s

101 The relationship between the adsorption energetics and OER kinetics, however, has not

102 particle metal edges also display favourable adsorption energetics for water oxidation under electroc

103 the registries of the adsorption complexes, adsorption energies, and structural parameters are prese

104 ly relate errors in frequencies to errors in adsorption energies.

105 ons provide the dominant contribution to the adsorption energy and registry of the layers.

106 g a series of electrolytes, we find that the adsorption energy changes linearly with pH, which we att

107 natures of CO bound to each site and find CO adsorption energy is ordered: Ptiso << Ptmetal < Ptox.

108 ed protons on electrical conductance and the adsorption energy of hydrogen atoms.

109 The dependence of the adsorption energy on pH has implications for the OER kin

110 cular dynamic simulations (MD) of O2 and H2O adsorption energy on ZnO surfaces were performed using t

111 tural host-guest interaction, confirming low adsorption enthalpies and significant entropic contribut

112 Large difference in adsorption enthalpy of 2.5 kJ mol(-1) between D2 and H2

113 orbents that discriminate molecules based on adsorption entropy rather than enthalpy differences.

114 p forward to accurately modeling multisolute adsorption equilibrium.

115 Nitrogen adsorption experiments conducted on rapidly crystallized

116 Adsorption experiments in synthetic groundwater using ba

117 Additionally, transient adsorption experiments show fast kinetics, with more tha

118 The kinetic and isothermal adsorption experiments were carried out and all paramete

119 sphonic acid (ODP) coatings led to different adsorption extents (SA approximately OA > ODP) under the

120 emiconductor surface through direct physical adsorption followed by a post-treatment with bovine seru

121 Adsorption followed by condensation of the water molecul

122 rine did not significantly decrease ammonium adsorption for any of the adsorbents.

123 valuation of the thermodynamic parameters of adsorption for dmpn-Mg2(dobpdc) suggests that the narrow

124 First, the efficiency of REE adsorption from all leachates was enhanced as indicated

125 ient results suggest that: (1) As desorption/adsorption from/onto clay minerals is the major reaction

126 solve a statistical mechanical model of gas adsorption in a porous crystal whose cages share a commo

127 Here, we report high I2 adsorption in a series of robust porous metal-organic ma

128 erized granular activated carbon and biochar adsorption in deionized water and stormwater was indepen

129 apparently did not contribute to polyphenol adsorption in the presence of cellulose.

130 ses the apparent pH dependence of "hydrogen" adsorption in the step sites of platinum electrodes.

131 tions can be critical for correctly modeling adsorption in these types of systems.

132 hich changes how we view the fundamentals of adsorption in this MOF series.

133 The fundamental aspects of the adsorption, including the registries of the adsorption c

134 ption is significantly smaller than that for adsorption, indicating that this reduced attempt frequen

135 rials for separating ethylene from ethane by adsorption, instead of using cryogenic distillation, is

136 croporous materials driving industrial scale adsorption, ion exchange, and catalytic processes.

137 This adsorption is followed by the filling of other adsorptio

138 As a result, the time for the complete chain adsorption is minimised by a certain optimal number of r

139 Hydrogen atom adsorption is the major driving force for this phase tra

140 steps, and hysteresis that can arise in the adsorption isotherm as a signature of the rotating ligan

141 xceptional hydrolytic stability with the CO2 adsorption isotherm being unchanged following 7 days of

142 STFC Rutherford Appleton Laboratory along an adsorption isotherm of 22 degrees C and pressures of 25

143 55 and N80 steel surface obeyed the Langmuir adsorption isotherm.

144 les can be modeled in terms of Langmuir-type adsorption isotherms (Hill model).

145 We report measurements of adsorption isotherms and the determination of the isoste

146 sented higher hygroscopicity in the moisture adsorption isotherms at 25 degrees C and lower thermal s

147 o our knowledge, this is the first report of adsorption isotherms of fluorocarbon R134a in MOFs.

148 -dicarboxylate) that feature step-shaped CO2 adsorption isotherms resulting from cooperative and reve

149 eathing can be inferred from the analysis of adsorption isotherms, direct observation of the structur

150 In addition, adsorption kinetics and isotherms were collected, and th

151 Adsorption kinetics and MP removal were measured in batc

152 owever, consistent with first-order Langmuir adsorption kinetics at low surface coverages.

153 We (1) investigate water adsorption kinetics on CuPcTs for better understanding t

154 Our work points to the subtle adsorption-kinetics relationship in the OER and highligh

155 ew materials with high selectivities for CO2 adsorption, large CO2 removal capacities, and low regene

156 Adsorption leads to measurement distortions and incorrec

157 component and multicomponent equilibrium gas adsorption measurements, we show that the coordinatively

158 tlandite and give insights into the hydrogen adsorption mechanism during the reaction.

159 nse to O2 and H2O, confirming that different adsorption mechanisms are involved.

160 These simulations suggest that the adsorption mechanisms differ for O2 and H2O adsorption o

161 ing reactive and non-reactive absorption and adsorption, membranes, and cryogenic distillation are re

162 nsity functional theory methods and nitrogen adsorption methods altogether, for studying the structur

163 t with respect to the details of the applied adsorption model, indicate that the lifetime of an assem

164 ast kinetics, with more than 90% of ethylene adsorption occurring within 30 s after dosing.

165 onto Na-exchanged IdP indicated a shift from adsorption of (dehydrated) Tl(+) at the frayed edges at

166 Tl(+) at the frayed edges at low loadings to adsorption of (hydrated) Tl(+) on planar sites at the hi

167 Comparing the differential heat of adsorption of 2-pentene on silicalite and ferrierite all

168 energy relationships were developed for the adsorption of a number of solutes at low concentrations

169 After oxidation, the adsorption of ammonium increased while phosphate adsorpt

170 We also studied the adsorption of AMPs on PM.

171 Strong yet favorable adsorption of an OOH* intermediate on the high density o

172 les with low poly(ethylene glycol) coverage, adsorption of apolipoproteins can prolong circulation ti

173 t of autolysis; and (ii) indirectly, through adsorption of autolysins on TiO2 NP, limiting the activi

174 ific detection, we prevented the nonspecific adsorption of biomolecules present in saliva by brushes

175 d QCM is developed to simultaneously analyze adsorption of biomolecules.

176 It is demonstrated that the adsorption of bovine serum albumin (BSA) to aqueous gold

177 ass changes for both deposited gold film and adsorption of bovine serum albumin (BSA), respectively,

178 ce reconstruction and chiral imprinting upon adsorption of chiral agents, and the enhancement or supp

179 tudies carried out to date to understand the adsorption of chiral compounds at a molecular level.

180 ted dimers at Bronsted acid sites hinder the adsorption of cyclohexene and the formation of a carbeni

181 Adsorption of different species at preferred pattern sit

182 Undesired adsorption of DNA to the surrounding non-target areas is

183 f enantioselectivity seen in some cases upon adsorption of enantiomixtures of chiral compounds.

184 ntestinal proteins may decrease the level of adsorption of estrogen to SWCNTs by 5%.

185 tly-Fe(III) octahedral sheets or through the adsorption of Fe(II) onto the mineral surface.

186 position of magnetite requires the preceding adsorption of Fe(II)-triethanolamine on the substrate su

187 tiwalled carbon nanotubes (CNTs) followed by adsorption of furfuryl alcohol and pyrolysis.

188 rgo a conformation change in response to the adsorption of guest molecules, which qualitatively impac

189 an isotope exchange allows the preferential adsorption of heavy isotopologues from the gas phase.

190 The adsorption of ions to aqueous interfaces is a phenomenon

191 r simulations to trace the difference in the adsorption of K(+) and Li(+) ions to a difference in the

192 In this paper, adsorption of levofloxacin from artificial contaminated

193 vely impacts granular activated carbon (GAC) adsorption of micropollutants and is a disinfection bypr

194 The adsorption of molecules on metal nanoparticles can be st

195 made out of small chiral adsorbates, and by adsorption of more complex chiral molecules capable of p

196 presence of NOM had a negative effect on the adsorption of MPs to CCAC but had almost no effect on ad

197 n of MPs to CCAC but had almost no effect on adsorption of MPs to P-CDP.

198 Adsorption of NTAIL at the A/W interface was studied in

199 of the hydroxyl overlayer involves the mixed adsorption of O2 and H2O on a partially defected surface

200 facial electronic effect makes Pt favour the adsorption of O2, alleviating CO poisoning and promoting

201 Adsorbed Solution Theory (RAST), to bisolute adsorption of organic compounds onto a hyper-cross-linke

202 in membrane strain caused by the continuous adsorption of peptides to the target vesicle coupled wit

203 intrinsic lipid properties or be acquired by adsorption of peripheral molecules.

204 Interestingly, we found that the adsorption of PhOH proceeds via an intermediate, weakly

205 The adsorption of PM on the J55 and N80 steel surface obeyed

206 combined RIfS-QCM successfully detected the adsorption of proteins with different surface properties

207 We summarize the work published on the adsorption of pure enantiomers, of enantiomeric mixtures

208 different catalytic reactivity and that the adsorption of reactive species can cause reconstruction

209 and in particular the effect on this of the adsorption of serum proteins, are directly examined by m

210 the determination of the isosteric heats of adsorption of several small gases (H2, D2, Ne, N2, CO, C

211 The data was compared to adsorption of soy protein and glutamic acid as common in

212 Adsorption of sulfonated azo dyes Tartrazine (E102), Sun

213 Adsorption of TCS at neutral pH on three different kinds

214 Moreover, strong molecular adsorption of the dye to the W18O49 component of the com

215 0 is due to a tunneling effect caused by the adsorption of the electrolytes on the electrode surface

216 Upon physical adsorption of the molecular motors onto lipid bilayers a

217 casein-iron precipitates resulted in gradual adsorption of the orthophosphate, causing re-dispersion

218 The assay is based on the competitive adsorption of the sample and the acceptor-labeled protei

219 Moreover, the RIfS-QCM revealed differential adsorption of the vesicles on silicon dioxide, titania,

220 phy, wettability, surface charge and protein adsorption of these surfaces may underlie the difference

221 tests validated the efficient and selective adsorption of thiabendazole using synthesized MIPs via p

222 They confirmed the strong adsorption of Tl(+) at the frayed edges of illite, with

223 We investigated the adsorption of Tl(+) onto purified Illite du Puy (IdP).

224 Using data sets that quantify the adsorption of U(VI) to multilayered graphene oxide (MLGO

225 rogen simultaneously facilitates the initial adsorption of water via the electron-deficient H atom an

226 hate-hydroxyl ligand exchanges drive protein adsorption on AH.

227 account to interpret data related to protein adsorption on AH.

228 aces of crystalline materials, macromolecule adsorption on different types of crystal surfaces, cryst

229 Proton adsorption on metallic catalysts is a prerequisite for e

230 s Ni and Zn by phyllomanganates results from adsorption on or incorporation into vacancy sites.

231 The results show that protein adsorption on the AH adjuvant cannot be explained solely

232 much insight into the mechanism of molecular adsorption on the surface of 2D materials, while introdu

233 that the distinctive responses to O2 and H2O adsorption on ZnO could be utilized to statistically dis

234 adsorption mechanisms differ for O2 and H2O adsorption on ZnO, and are governed by the surface termi

235 at allows minimization of unspecific protein adsorption onto cantilevers.

236 Removal of toxic trace elements via adsorption onto iron oxides is an inexpensive and robust

237 The droplet adsorption onto the foam was governed by physisorption,

238 omising for catalysis, sensing, gas storage, adsorption, optoelectricity, etc. owning to the unpreced

239 +/- 0.094, whereas Frankel-Halsey-Hill (FHH) adsorption parameters of AFHH = 2.20 +/- 0.60 and BFHH =

240 g effect in ZIF frameworks and therefore the adsorption performance.

241 Herein, a hybrid adsorption-periphyton reactor (HAPR), combining a bioads

242 gen evolution reaction (OER), surface oxygen adsorption plays an indispensable role in the electrocat

243 l predictions of the existence of a critical adsorption point (CPA) for statistical copolymers with a

244 ared nanocomposites to examine their maximum adsorption potential for lead and chromate ions.

245 le MOFs, which facilitates the diffusion and adsorption process of guest molecules to improve the per

246 otherm models were examined to elucidate the adsorption process.

247 ace roughness plays an important role in the adsorption process.

248 cs of a robust network with a microdomain N2-adsorption profile.

249 The adsorption propensities of inorganic cations, such as th

250 y provided information about controlling the adsorption properties of biomolecules to the montmorillo

251 e electronic structure, and thus the altered adsorption properties of the surface Cu sites.

252 ndesirable side effects such as non-specific adsorption, protein denaturation, and steric hindrance.

253 The structures investigated (pores) for CO2 adsorption range in size from A level to approximately 5

254 were nearly 50-times faster than the pyrene adsorption rate at a planar C18-functionalized silica su

255 dimensional materials adhesion is a gas-like adsorption rather than a pure solid-solid mechanical adh

256 With a small set of adsorption reactions for uranyl hydroxide and uranyl car

257 The initial stage of adsorption revealed distinct individual properties of th

258 ide range of materials functions such as gas adsorption, separation, drug delivery, catalysis, and se

259 CO2 adsorption, separations, and membranes are reviewed foll

260 r simulations reveal four classes of surface adsorption site, where the prevalence of these sites dep

261 open Cu(II) sites are the secondary/tertiary adsorption sites in these structures.

262 by the different gases, starting with strong adsorption sites near the Zr atoms, a result corroborate

263 sorption is followed by the filling of other adsorption sites on the nodes and organic framework.

264 ional spectra aid in identifying species and adsorption sites present in experimental studies.

265 tter suited to compete for aromatic-compound-adsorption sites.

266 and van der Waals interactions at different adsorption stages.

267 that the narrow temperature swing of its CO2 adsorption steps is due to the high magnitude of its dif

268 As phenol and cyclohexanol show similar adsorption strength, this strict reaction sequence is no

269 performing reliable and reproducible uranium adsorption studies are also discussed, as well as the st

270 Batch mode adsorption studies were conducted with the prepared nano

271 copy, contact angle measurements and protein adsorption suggests that differences in topography, wett

272 reaction rates and surface area of calcite, adsorption surface areas and equilibrium constants of cl

273 he pH-dependence of Mn(II)-metal competitive adsorption, system pH largely controls metal binding to

274 apture performance in a laminate-based swing adsorption technology.

275 Kinetic and static adsorption tests validated the efficient and selective a

276 Adsorption tests were completed at select relative press

277 sorption allowed determination of an average adsorption time for the resins of 9h.

278 Dose reduction through adsorption to aluminium hydroxide (Al) is a promising op

279 of these processes were investigated for Ni adsorption to hematite and goethite at pH 7 in the prese

280 ld reveal protein conformational change upon adsorption to NPs, owing to its capability to label the

281 an and ecosystem health, must consider U(IV) adsorption to organic matter within the sediment environ

282 Here we investigate ion adsorption to the model interface formed by water and gr

283 values due to the confined environment upon adsorption to the surface.

284 MnO2 nanoparticles via a two-step sequential adsorption under careful temperature and pH control.

285 actor (HAPR), combining a bioadsorbent based adsorption unit and a periphyton-based photo-bioreactor

286 eptionally high carbon dioxide and acetylene adsorption uptakes with the latter (232 cm(3) g(-1) at 2

287 In this Article, we use fast-scan controlled adsorption voltammetry (FSCAV), to measure serotonin's s

288 The heat of adsorption was below 32 kJ mol(-1) and the temperature o

289 ed to the water-FeS(001) interface, stronger adsorption was calculated for As(OH)3 on the water-FeS(0

290 erties of the carbon sorbents on nitrosamine adsorption was examined.

291 Almost no effect of I on adsorption was moreover noted at pH 7.

292 Hence, a higher adsorption was observed at pH 3 compared to pH 7, althou

293 ssembling onto the surface of PGE by passive adsorption was optimized.

294 hemical-bonding in conjunction with physical-adsorption was proposed to offer the advantages of a str

295 Bovine serum albumin (BSA) adsorption was studied at different pHs and ionic streng

296 a, and gold surfaces, and the differences in adsorption were further interrogated by atomic force mic

297 luence of DOM intermolecular interactions on adsorption were minimal based on SEC analysis.

298 Arabic and cashew gums showed greater water adsorption when exposed to higher relative humidities.

299 oduces a gating pressure associated with CO2 adsorption, which shows that the framework can also unde

300 However, tuning proton adsorption without perturbing metallicity remains a chal