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The combination of silica with amphiphilic surfactant ( surface active agents ) moleculesleadedto the production of mesoporous silica materials with large pores
Changes in subsurface resistivity valuescan resultfrom changes in lithology , water content , pore - water chemistry
an integrated portioncomposedof silica micro beads having a pore size of from 6 to 29
the temperatureledto great porous volume in silica network
The large particle sizecauses alsoa large pore size between the sediment particles
the presence and nature of a surfactantcan influencepore formation in silica - comprising materials
that the application of ultrasound upon impregnationresultedin superior filling of a capillary pore volume of fibrous templates
that subglacial water , which is derived almost exclusively from geothermal and strain heating in full - glacial periods , is contained within the sediments themselvescontributingto the deformation of soft till under high pore - water pressure
These eventscan leadto pore volume being filled by solid material
In such a case , infiltration through the surface material is impeded ,leadingto a build up of pore - water pressures
upward methane fluxes and methan oxidation(passive) influenced bySeep type escape of pore waters in sandy sediment
for optimum immobilization of enzymes used in the starch and fat ( and other ) industries(passive) are designedThe ionic strength , pore volume , pore size , and particle size of DUOLITE A568
a significant improvement in yields and puritiesresultedfrom increasing the pore volume at a given pore size
size and temperature variationscan influenceon water viscosity inside the pore
examplecomposedof polymers having pores of sub - micron size
significantly(passive) are ... influencedOxygen dynamics in shallow marine sediments
Replication techniquesleadto the generation of macroporous scaffolds with a controllable pore size
Ag filler sizeinfluencespore shapes , pore sizes , and shear strength
Heavy seasonal rainfallleadsto generation of pore water pressure between the particles
conditionsresultin small changes in porosity or pore size
such response ... the charcoalcausedalterations in soil pore size distribution
by various stresses(passive) influenced bythe dynamic pore size
all process conditionsresultedin narrow pore size distribution of 1 - 5 nm
Acid heavy haircausespore size and porosity
Diatoms , plytoplanktonic cells that contribute efficiently to the biological carbon pump , have the particularity to produce a shell ( frustulecomposedof biogenic silica from dissolved silica in water
the HA concentration(passive) was influenced byPore size of the scaffolds
the secondary factorinfluencingthe dynamic pore water pressure
the liquefaction initiationcould causethe liquefaction initiation
for instance in hypoxia or temporary wiltingresultfor instance in hypoxia or temporary wilting
induced - earthquakescausinginduced - earthquakes
soil softening(passive) caused bysoil softening
to facilitate such aimto designto facilitate such aim
the activitydid ... influencethe activity
thereforeleadstherefore
to improvements in resolution , capacity and recovery of proteins and other biomoleculesleadsto improvements in resolution , capacity and recovery of proteins and other biomolecules
This result(passive) was caused byThis result
in the development of poreresultedin the development of pore
a decrease in pore size in the bimodal carriercauseda decrease in pore size in the bimodal carrier
to flux declineleadsto flux decline
in the dissolution of calcium carbonates and iron sulfidesresultedin the dissolution of calcium carbonates and iron sulfides
the behavior of cells and the quality of tissue regeneratedinfluencesthe behavior of cells and the quality of tissue regenerated
pressure cells(passive) being caused bypressure cells
the liquid surface to change shapecausesthe liquid surface to change shape
capillary pressure effectscausescapillary pressure effects
their biocompatibility and should be carefully designedinfluencestheir biocompatibility and should be carefully designed
the limit of undrained sand strengthsetsthe limit of undrained sand strength
in higher conversion yieldresultedin higher conversion yield
media utilizationsignificantly influencesmedia utilization
from plant residuesoriginatingfrom plant residues
a potential upper size limit that may affect the binding of extremely large proteins or protein complexes to internal binding sites ... and therefore magnetic beads may becausesa potential upper size limit that may affect the binding of extremely large proteins or protein complexes to internal binding sites ... and therefore magnetic beads may be
intrinsic permeability(passive) caused byintrinsic permeability
intrinsic permeability(passive) caused byintrinsic permeability
a potential upper size limit that may affect the binding of extremely large proteins or protein complexes to internal binding sites ... and therefore magnetic beads may be better suited for immunoprecipitating large proteins or protein complexes tcausesa potential upper size limit that may affect the binding of extremely large proteins or protein complexes to internal binding sites ... and therefore magnetic beads may be better suited for immunoprecipitating large proteins or protein complexes t
ratio and porosity of the foam spongesetratio and porosity of the foam sponge
a potential upper size limit that may affect the binding of extremely large proteins or protein complexes to internal binding sites ... and therefore magnetic beads may be better suited for immunoprecipitating large proteins or protein complexes than agarose beads , although there is a lack of independent comparative evidence that proves either casecausesa potential upper size limit that may affect the binding of extremely large proteins or protein complexes to internal binding sites ... and therefore magnetic beads may be better suited for immunoprecipitating large proteins or protein complexes than agarose beads , although there is a lack of independent comparative evidence that proves either case
a potential upper size limit that may affect the binding of extremely large proteins or protein complexes to internal binding sitescausesa potential upper size limit that may affect the binding of extremely large proteins or protein complexes to internal binding sites