ライフサイエンスコーパス: diffusion-limited

1 e if both the N(3)(-) and d-G reactions were diffusion limited.

2 tant, regardless of whether enzyme action is diffusion limited.

3 ried to determine if the folding reaction is diffusion limited.

4 r enzymes where reaction rates are typically diffusion limited.

5 whereas below S*, uptake rates are strictly diffusion limited.

6 that detection and capture is predominantly diffusion limited.

7 te binding to single-molecule probes becomes diffusion-limited.

8 wth kinetics from edge-attachment-limited to diffusion-limited.

9 ier, and the rate of monomer addition is not diffusion-limited.

10 ents no energetic barrier and, therefore, is diffusion-limited.

11 second-order rate constant was approximately diffusion-limited.

12 tranded 30-mer/36-mer complex) appears to be diffusion-limited.

13 as the substrate, chemistry is thought to be diffusion-limited.

14 P2 concentration and appeared to be largely diffusion-limited.

15 strates and the overall in vitro reaction is diffusion-limited.

16 of small-molecule and protein materials are diffusion-limited.

17 anded polypyrimidine sequences appears to be diffusion-limited.

18 that the action of cytidine deaminase is not diffusion-limited.

19 led and whether the rates are activation- or diffusion-limited.

20 e, whereas the binding rate is assumed to be diffusion-limited.

21 which the transport of passive substances is diffusion-limited.

22 Presteady state analysis demonstrates rapid diffusion-limited A3G-ssDNA binding, a slower salt-depen

23 Slow kinetics thus appear related to diffusion-limited access to electron equivalents retaine

24 ration and enzymatic activity (which remains diffusion-limited across pH5-8).

25 s, such as activation of the Ras GTPase, the diffusion-limited activation rate constant increases wit

26 gen penetration into the clot to be strongly diffusion-limited (actual rate/ideal rate = 0.05).

27 -assembled irregular Au nano-mounds based on diffusion limited agglomeration at comparatively low ann

28 We introduce diffusion limited aggregation (DLA) clusters.

29 th numerical simulations based on a model of diffusion limited aggregation (DLA), to show that for vi

30 gurations that correspond to two-dimensional diffusion limited aggregation structures, suggesting tha

31 drainage networks have symmetries similar to diffusion-limited aggregation clusters.

32 seudoisocyanine dye, an equation derived for diffusion-limited aggregation of a fractal object satisf

33 nsion of [Formula: see text], reminiscent of diffusion-limited aggregation of nonliving colloidal par

34 ronts and the ensembled average shape of the diffusion-limited aggregation pattern, have been shown t

35 ed surfaces and exhibited both reaction- and diffusion-limited aggregation regimes with rates depende

36 ritical coagulant concentration required for diffusion-limited aggregation to occur.

37 been proposed to model landforms, including diffusion-limited aggregation, self-avoiding percolation

38 apacities are achieved through a solid-state diffusion-limited Al storage process.

39 on, we show that the dynamics of fission are diffusion limited and enable the isolation of an interme

40 The data show that binding is diffusion limited and indicate that the transition state

41 um corneum allows one to distinguish between diffusion-limited and dissolution rate-limited kinetics.

42 of the complex we conclude that catalysis is diffusion-limited and does not depend on protein flexibi

43 The transfer reaction is diffusion-limited and influenced by the affinities of th

44 nitial Cry1Ab adsorption rates were close to diffusion-limited and resulted in extensive adsorption,

45 at many enzymes are reaction limited and not diffusion limited, and our results suggest that the infl

46 Root uptake of the volatile tracers was diffusion-limited, and uptake rate constants (kv) in veg

47 In the absence of urea, rapid, near diffusion-limited ( approximately 10(9)M(-1)s(-1)) SecA

48 g, it is important to know if a reaction is 'diffusion-limited' as, if this speed limit is reached, t

49 The association process is significantly diffusion-limited, as indicated by the viscosity depende

50 devices with thin enzyme layers that are not diffusion-limited, as it is the case for the PenFETs dis

51 tured by WWCA domains grow at or below their diffusion-limited assembly rate.

52 labeled PAI-1s with trypsin suggested that a diffusion-limited association of PAI-1 and trypsin and r

53 s extremely rapid; association occurs with a diffusion-limited association rate constant.

54 hese simulations, combined with estimates of diffusion-limited association rates, suggest a short lif

55 nce information necessary to direct the near-diffusion-limited association reaction in a TR folding r

56 dimeric intermediate that forms in a nearly diffusion-limited association reaction in the stopped-fl

57 repressor, [2-66]2 TR, consists of a nearly diffusion-limited association reaction to form a dimeric

58 4.8 x 10(7) M(-1) s(-1), suggesting a nearly diffusion-limited association.

59 If k(az) for these ions is diffusion limited at ca. 5 x 10(9) M(-1) s(-1) the aqueo

60 w that while vesicle reloading at AZs is not diffusion-limited at the onset of release, diffusion lim

61 der harsher SALE conditions, deviations from diffusion-limited behavior are found due to etching and

62 The SALE process is found to follow a diffusion-limited behavior leading to core-shell morphol

63 solute ejected using high currents exhibits diffusion-limited behavior.

64 nce and labeling studies are consistent with diffusion-limited bimetallic self-quenching by electron

65 The deviation from diffusion-limited binding indicates that a ligand-specif

66 d immunoassay has been developed to overcome diffusion-limited binding kinetics that often impedes ra

67 ructural recognition, based on a fundamental diffusion-limited binding model, facilitates the tip tra

68 This is consistent with the diffusion-limited binding of MBP, in contrast to the rap

69 rotein CD63 were analyzed by measuring their diffusion-limited binding rate to an SPR sensor surface

70 ion in solution using a formalism describing diffusion-limited binding under controlled flow conditio

71 ding rates could not account for affinity if diffusion-limited binding was assumed.

72 ch polyelectrolyte complexes facilitates (i) diffusion-limited binding, (ii) transient ternary comple

73 For diffusion-limited binding, the (rebinding) on rate decre

74 mately 10(7) M(-1) s(-1) are compatible with diffusion-limited binding.

75 , at least 10 times slower than expected for diffusion-limited binding.

76 dynamics-is developed for the calculation of diffusion-limited biomolecular association reaction rate

77 ts indicates that the release of Zn2+ is not diffusion limited but is instead kinetically controlled

78 Thus, intramembrane proteolysis is naturally diffusion-limited, but cells mitigate this constraint by

79 Since ion transfer is diffusion-limited, by changing the voltage excitation fr

80 es at or within the surface of the MCLW, the diffusion-limited capture rate has been replaced by fast

81 stable beta-barrel fold and dimer assembly, diffusion-limited catalysis, and electrostatic guidance

82 s to such a degree that activation rates are diffusion limited, causing the two time scales to merge.

83 otocol combining plasmonic nanoantennae with diffusion-limited chemotherapies.

84 enerate virtual aggregates formed via either diffusion limited cluster aggregation or reaction limite

85 Here, we extend the principle of rapid diffusion-limited cluster aggregation (DLCA) to a multic

86 r results reveal ensilication to be a staged diffusion-limited cluster aggregation (DLCA) type reacti

87 nfinitely strong interparticle bonds lead to diffusion-limited cluster aggregation (DLCA).

88 Monte Carlo simulations, based on a modified diffusion-limited cluster aggregation model, strongly su

89 accord with expectation, varied from 1.7 for diffusion-limited cluster aggregation to 2.3 for reactio

90 dynamics simulations using the framework of diffusion-limited cluster aggregation.

91 ransfer is often slow because it is gated by diffusion-limited collisions between sensitizer and cata

92 This was consistent with diffusion-limited complex formation at basic pH but rapi

93 nd compared CRM, resolving power (R(m)), and diffusion-limited conditional theoretical reduced mobili

94 tion reaction (ORR) was studied under proton diffusion-limited conditions in slightly acidic electrol

95 umns was examined under both adsorption- and diffusion-limited conditions.

96 rt was orders-of-magnitude higher than under diffusion-limited conditions.

97 al groundwater containing O2 or NO3(-) under diffusion-limited conditions.

98 ive enough for the reaction to proceed under diffusion-limited control.

99 s the melting point, thus promoting the film diffusion-limited crystallization.

100 s constant value is the same as that for the diffusion limited current in a semi-infinite medium.

101 acoustic levitation causes an enhancement of diffusion-limited current on the order of 16%.

102 harged porous media at high rates, above the diffusion-limited current.

103 l dependencies in the simulated steady-state diffusion-limited currents are also reported.

104 Comparison of diffusion-limited currents in pendant and levitated drop

105 Fitting diffusion-limited data with regular compartmental models

106 loped to accurately estimate parameters from diffusion-limited data.

107 The diffusion-limited delivery of chemoattractant from a mic

108 We show that our system is not 'diffusion-limited', despite having a k(+) in the often-q

109 (<100 fs) in blends prepared without ODT or diffusion-limited dissociation in samples prepared with

110 ior with defined reaction limited (RLCA) and diffusion limited (DLCA) aggregation regimes.

111 rization of tumor hypoxia as being primarily diffusion-limited does not accurately portray the tumor

112 GSI in vivo resulted in inhibitory but diffusion-limited effects on Notch 3 signaling, resultin

113 ificantly improved mutants, some approaching diffusion-limited efficiency.

114 10(10) M(-1) s(-1), a value consistent with diffusion-limited electron transfer.

115 Ultrafast diffusion-limited electrostatically driven Get3.Get4/5 a

116 -consistently explained by load-insensitive, diffusion-limited elongation of (+)-end-tethered actin f

117 interplay between two competing processes: a diffusion-limited encounter between proteins, and the ex

118 14) binding to a Pm kringle accompanies near-diffusion-limited encounter complex formation followed b

119 o-state model for helix formation yields the diffusion-limited end-to-end contact rate of the coil st

120 ical, whereas the chlorine exchange presents diffusion-limited exchanges proceeding through a more co

121 In a subset of diffusion-limited experiments, we show that kinetic isot

122 is close to that of the source; in contrast, diffusion-limited export leads to small phloem concentra

123 ve between membrane compartments in part via diffusion-limited, fluid phase transfer through the cyto

124 s assembly proceeds through the formation of diffusion-limited, fractally patterned aggregates on the

125 :SERCA regulatory complex was rapid, showing diffusion-limited FTR (tau=1.4 second).

126 eukaryotic pathogens may also be related to diffusion-limited functions.

127 transition from secretion limited growth to diffusion limited growth.

128 clusters and suggest that kinetically (i.e., diffusion) limited growth should not be assumed.

129 that lead to divergent predictions: either a diffusion-limited growth model in which plaques grow by

130 cture that strongly resembles a self-similar diffusion-limited growth pattern, with strongly preferre

131 y, it roughens more rapidly, consistent with diffusion-limited growth physics.

132 tion process of oxidized species following a diffusion-limited growth regime for DOPC and in the case

133 ally observed presence of a sub-exponential, diffusion-limited growth regime in colonies, which is ab

134 characterized by a rate that is greater than diffusion limited (>10(10) s(-1) M(-1)) and the second p

135 rapping single cells with blood in an oxygen-diffusion-limited high-density microwell array and by us

136 croarray gap height would delay the onset of diffusion-limited hybridization by increasing the amount

137 ular factor will find its mass transfer rate diffusion-limited if it is stationary with respect to it

138 Although oxygen is abundant in vivo, it is diffusion-limited in vitro.

139 The diffusion-limited ion-transfer current increased with th

140 n the length scale at which oxygen supply is diffusion-limited, its occurrence requires very high cel

141 ylammonium as the redox mediator exhibited a diffusion-limited k degrees for the previously KCl-prote

142 )) can be decomposed into contributions from diffusion-limited (k(D)) and reaction-limited (k(R)) rat

143 exchange, consistent with mixed surface- and diffusion-limited kinetics arising from prominent partic

144 n to metallic nanoparticles with essentially diffusion-limited kinetics in a laboratory microwave rea

145 For critical tests of whether diffusion-limited kinetics is an option for the solution

146 l (accuracy <or=7%) for the pair, indicating diffusion-limited kinetics of crystallization.

147 FEN1 sculpts DNA with diffusion-limited kinetics to test DNA substrate.

148 and C2B copenetrate into these bilayers with diffusion-limited kinetics.

149 of protein microarrays can be compromised by diffusion-limited kinetics.

150 ilibrium and the kinetic competition between diffusion-limited lateral lattice growth versus fluctuat

151 While single cell suspensions can improve diffusion-limited mass transfer, direct cell-cell intera

152 de sensor that alleviates the limitations of diffusion-limited mass transport and non-specific signal

153 his can be achieved by measuring the rate of diffusion-limited mass uptake to a sensor surface modifi

154 sing these array electrodes for steady-state diffusion-limited measurements in electroanalytical appl

155 independent of the tip diameter, indicating diffusion-limited membrane transport of the redox molecu

156 crystal structures employing controlled and diffusion-limited microfluidic environments is demonstra

157 Through the use of a diffusion-limited model for the intimin-tir binding inte

158 ncluding quaternary organization of P450 and diffusion-limited models.

159 ith transport, whilst the former may include diffusion-limited movement of lactate into the bulk cyto

160 in helical domains that move collectively at diffusion-limited nanosecond time scales.

161 leads to an approximately 10,000-fold longer diffusion-limited observation time per molecule than is

162 e stalk as a morphological adaptation to the diffusion-limited, oligotrophic environments where C. cr

163 ations that are prone to bind NTRs with near diffusion-limited on rates, as shown by stopped-flow kin

164 ion of the copper phyllosilicate followed by diffusion-limited or reaction-limited growth of the copp

165 ed with the highest OV exhibited the highest diffusion-limited ORR current (5.5 mA cm(-2) ) among a s

166 of the corresponding current images for the diffusion-limited oxidation of the redox mediator indica

167 ability that is lower than the corresponding diffusion-limited permeability.

168 citation of phenanthrene at 256 nm enables a diffusion-limited photoinduced electron transfer to 1,4-

169 ition new Glu's for catalysis is as rapid as diffusion-limited positioning of a small substrate, and

170 ing that the movement is directional but not diffusion limited process.

171 y experiments gave results consistent with a diffusion-limited process and revealed a working electro

172 h explosive materials that precedes the slow diffusion-limited process of forming the bulk solid from

173 he volume phase transition of hydrogels is a diffusion-limited process the size of the synthesized hy

174 PRM displays the features consistent with a diffusion-limited process within our experimental condit

175 sed) complex is close to that expected for a diffusion-limited process, (2) the extent of activation

176 eceptors that are slower than expected for a diffusion-limited process, suggesting that agonist bindi

177 ults, the rate constant is undervalued for a diffusion-limited process, suggesting that functional ad

178 s formed that binds GroES weakly in a rapid, diffusion-limited process.

179 essary to determine if the binding is a true diffusion-limited process.

180 Besides the fast complexation reactions, diffusion-limited processes, especially lateral diffusio

181 It has been thought that diffusion-limited protein association is dominated by lo

182 physical time scales of protein folding and diffusion-limited protein-protein encounter has suggeste

183 (i.e. Microtox((R))) or low sensitivity and diffusion limited protocols (i.e. amperometric microbial

184 osphorescence lifetimes and with the help of diffusion-limited quenching with iodide ions.

185 in the absence of nucleotides binds DNA at a diffusion limited rate but cannot efficiently cleave DNA

186 ich is approximately 50-fold slower than the diffusion limited rate of association.

187 and hydrogen peroxide, occurs at nearly the diffusion limited rate.

188 1) s(-1), approximately 40% of the estimated diffusion limited rate.

189 sicles, and calcium ions approached the same diffusion-limited rate (>10(7) m(-1) s(-1)) that has bee

190 at the scissile phosphate, reacts at a fully diffusion-limited rate (k2/K1/2 = 1.1 x 10(9) M-1 s-1).

191 r, with a slope of -1, and extrapolated to a diffusion-limited rate at pK(a)(app) approximately 1.

192 f Rho hexamer interact with poly(C) RNA at a diffusion-limited rate constant close to 8 x 10(8) m(-1)

193 t reacts rapidly with N3- with an apparently diffusion-limited rate constant of (6.6 +/- 0.2) x 10(9)

194 ith [NO] = 200 muM) forming a 6c heme with a diffusion-limited rate constant of 2 x 10(8) M(-1)s(-1).

195 Remarkably, glutamate binding with a diffusion-limited rate constant to iGlu(h) and Fl-GluBP

196 quantity k(lim) represents approximately the diffusion-limited rate constant, and s the free energy d

197 energy but also substantially increases the diffusion-limited rate for complexes in which long-range

198 posed of earth-abundant materials and with a diffusion-limited rate in acidified water, is efficient

199 in the inner vestibule, occurred at the same diffusion-limited rate in both open and closed states.

200 peptides containing the myo1c IQ motifs at a diffusion-limited rate in the presence and absence of ca

201 We show that this rate is also close to the diffusion-limited rate of contact formation.

202 urrent densities over 8-fold larger than the diffusion-limited rate of HOR catalysis at a singular Pt

203 The diffusion-limited rate of intramolecular contact is abou

204 grew approximately 3.4-fold faster than the diffusion-limited rate of unattached barbed ends.

205 ccus furiosus rubredoxin range from near the diffusion-limited rate to a billion-fold slower for the

206 NO then reacts at a nearly diffusion-limited rate with deoxyhemoglobin to form iron

207 This reacted at a diffusion-limited rate with fXa, even without PZ, and pr

208 he wild-type substrate reacts at a partially diffusion-limited rate, and a faster-reacting SRL, conta

209 Cu(2+) binds to Abeta at a near diffusion-limited rate, initially forming component I.

210 Since *NO reacts with LOO* at an almost diffusion-limited rate, steady state concentrations of 3

211 rstitial space, where it neutralizes NO at a diffusion-limited rate.

212 detect dissolved electroactive species at a diffusion-limited rate.

213 sociation rate constants were at or near the diffusion-limited rate.

214 tion of profilin-actin above the theoretical diffusion-limited rate.

215 of 2.3 x 10(9) M(-1) s(-1) which suggests a diffusion-limited rate.

216 e ions to move across cell membranes at near diffusion-limited rates and with very high selectivity.

217 Here we show how nearly diffusion-limited rates are achieved, by analysing ion c

218 For long chains, both reaction-limited and diffusion-limited rates are significantly smaller in den

219 end diffusion coefficients obtained from the diffusion-limited rates are smaller than the sum of the

220 s to actively elongating complexes at nearly diffusion-limited rates but remains bound for only 0.3-0

221 Both sensitizers were quenched at nearly diffusion-limited rates by 1 and 2.

222 Thus, VIIa.TF is inhibited at near diffusion-limited rates by Xa.TFPI formed during catalys

223 een used to measure the reaction-limited and diffusion-limited rates of loop formation in disordered

224 A Stern-Volmer analysis yielded much larger diffusion-limited rates than simple kinetic theory predi

225 These radicals react at diffusion-limited rates to form the powerful oxidant per

226 pport transmembrane ion conduction at nearly diffusion-limited rates while discriminating for K+ over

227 on ribosome-bound nascent chains approaches diffusion-limited rates, allowing immediate methionine e

228 , a product of NO and O2- that forms at near diffusion-limited rates, and rapidly decomposes upon pro

229 tic efficiency of 2.6 x 10(8) M(-1) s(-1), a diffusion limited reaction indicating catalytic perfecti

230 A and H2B polypeptides associate in a nearly diffusion limited reaction to form a dimeric ensemble, d

231 Since peroxynitrite is formed by the diffusion-limited reaction between the two radical speci

232 oxidizing species as a result of the nearly diffusion-limited reaction between tyrosyl radical and s

233 a transition state model by a switch from a diffusion-limited reaction in native RCs, where electron

234 loading while eliminating the constraints of diffusion-limited reaction kinetics.

235 and nitrating species, is formed by the near diffusion-limited reaction of .NO and O2.- during activa

236 of peroxynitrite (ONOO(-)) arising from the diffusion-limited reaction of exogenous NO and endogenou

237 ynitrite (ONOO(-)/ONOOH), the product of the diffusion-limited reaction of nitric oxide (*NO) with su

238 eroxynitrite is formed in macrophages by the diffusion-limited reaction of superoxide and nitric oxid

239 eady-state kinetic parameters that suggest a diffusion-limited reaction of UCH-L3 with Ub-AMC.

240 The diffusion-limited reaction rate constant is shown to sca

241 ensions serves as a model for predicting the diffusion-limited reaction rate, as first discussed by v

242 s within such nanodomains are known to shape diffusion-limited reaction rates, less is understood abo

243 The glycerol effect suggests a diffusion-limited reaction, and the small salt effect in

244 1)) that are much lower than predicted for a diffusion-limited reaction.

245 s deduce that RecQ binds to ssDNA via a near diffusion-limited reaction.

246 y intermediates that may otherwise form in a diffusion-limited reaction.

247 Northrup and Erickson model of docking-type diffusion-limited reactions and yields reaction rate con

248 ificant enhancement can only be achieved for diffusion-limited reactions or at high concentrations of

249 Exceptions are diffusion-limited reactions with strong electrophiles, w

250 nity (at both redox states of copper) during diffusion-limited reduction and oxidation of superoxide.

251 Changing from the diffusion-limited regime to the supply-limited regime of

252 mes of the HemNP homoaggregation rate in the diffusion-limited regime.

253 , despite having a k(+) in the often-quoted 'diffusion-limited' regime (10(5)-10(6) M(-1) s(-1) at hi

254 n and changes in cation concentration in the diffusion limited region above the RTN is measured due t

255 n order of magnitude lower than the expected diffusion limited resolution (Rmax).

256 ide linear range of 0.8-200mM chloride and a diffusion-limited response time; sweat chloride levels c

257 lso showed the reduced iR drop, steady-state diffusion-limited response, and reduced sensitivity to c

258 erent redox systems; well-defined and stable diffusion-limited responses were obtained in all but two

259 RPLC adsorption of hemoglobin (a system with diffusion-limited retention) was found to give 95% bindi

260 ant folate in plasma) is also a potent, near diffusion limited, scavenger of singlet oxygen and quenc

261 rofile and the simulated results for a fast, diffusion-limited second-order annihilation process (k(a

262 west central Colorado contains fine-grained, diffusion-limited sediment lenses that are substantially

263 nomer folding reaction is followed by a near diffusion-limited self-association reaction to form the

264 isopropylethoxysilane (APDIPES) yielded near diffusion-limited separations and exhibited little chang

265 eory to biological problems in 2D shows that diffusion-limited signalling is an efficient mechanism o

266 are needed for optimal tumor growth beyond a diffusion-limited size.

267 3.25 x 0.9 mm(2) area can be captured with a diffusion-limited spatial resolution of 750 mum.

268 tent species can bind ligand at or very near diffusion-limited speeds, suggesting that the binding po

269 lection mode revealed that, under apparently diffusion-limited steady-state conditions, there was a s

270 cal equations were developed to describe the diffusion-limited steady-state current and steady-state

271 the transferred charges per species from the diffusion-limited steady-state current.

272 In addition, simulations of the diffusion-limited steady-state currents at the integrate

273 chemical events in catalysis rather than by diffusion-limited substrate binding or product release.

274 pact CSR-FGF-2-HSPG triad formation assuming diffusion-limited surface reactions.

275 ertebrate nervous system, ions accumulate in diffusion-limited synaptic clefts during ongoing activit

276 Here we explore the hypothesis that oxygen diffusion limited the evolution of retinal morphology by

277 l tert-butyl ether, methyl isobutyl ketone), diffusion-limited (theoretical), R d, conditional, R c,

278 consistent with enhanced oxygen flux within diffusion-limited tracheal systems.

279 is governed by the crystal structure and the diffusion-limited transformation mechanism.

280 depletion zone, which is associated with the diffusion-limited transport and the consequent nonlinear

281 or pyrene accumulation were much slower than diffusion-limited transport of solute in solution to the

282 ceptors into the clusters is consistent with diffusion-limited trapping with D approximately 10(-1) m

283 different condition such as hypoxia within a diffusion-limited tumor region.

284 addition to contaminant uptake limitations, diffusion-limited turnover ((-)-alpha-HCH), substrate di

285 aw suggests that catalysis will be about 50% diffusion limited under conditions where [substrate] <<

286 the enzyme-catalyzed steps are significantly diffusion limited under physiological conditions.

287 The folding rate approaches the diffusion-limited value and is much faster than possible

288 The kf was slower than a diffusion-limited value, suggesting that conformational

289 r occurred with a rate constant close to the diffusion-limited value.

290 are apparent when the potential is below the diffusion-limited value.

291 This increase in Koff was not diffusion limited, was independent of AMPAR endocytosis,

292 g in a relatively inert pathway conducive to diffusion-limited water flow.

293 ,4'-trihydroxychalcone are approximately 50% diffusion-limited, whereas the reactions of both dihydro

294 of cGMP hydrolysis by light-activated PDE is diffusion limited, which is not the case for spontaneous

295 actions, the product formation appears to be diffusion limited, with a number of intermediate phases

296 The transducer's response time is diffusion-limited, with a typical measurement requiring

297 T film, suggesting that charge transport was diffusion limited within the film.

298 The electrophoretic separation is diffusion-limited, without significant adsorption of the

299 Geochemical gradients that developed in the diffusion-limited zones led to locally supersaturated co

300 nerals that form in dead-end one-dimensional diffusion-limited zones that are connected to a larger r