1 l-water mixture in the ultrapure water under
optimum condition.
2 udan I at a surface of propose sensor in the
optimum condition.
3 % Gly(1) and 7.5% Gly(2) is suggested as the
optimum condition.
4 for ZnO-AC and 98.30% for GA@ZnO-AC at their
optimum condition.
5 concentrations at the nanomolar level under
optimum conditions.
6 ion range (5-500muM) and current (muA) under
optimum conditions.
7 olar scales with a desirable stability under
optimum conditions.
8 NaBH(4) (in 0.2% NaOH) determined to be the
optimum conditions.
9 as used to model the data and to predict the
optimum conditions.
10 creased with addition of microemulsion under
optimum conditions.
11 procedure were investigated in detail under
optimum conditions.
12 )), and a low detection limit of 27 pM under
optimum conditions.
13 dosage of 18 mg and pH of 8 was selected as
optimum conditions.
14 e analytical performance was evaluated under
optimum conditions.
15 hydrolyzed with papain and trypsin for 3h at
optimum conditions.
16 to develop the model and also to predict the
optimum conditions.
17 The
optimum conditions (
1.2 equiv of the P-reagent, 135-150
18 entrate, which was performed at the enzyme's
optimum conditions (
60 degrees C, pH 6.0) for 24 h.
19 Under the
optimum condition,
a linear calibration graph in the ran
20 Under the
optimum conditions,
a Fe-N-C SACs-luminol ECL sensor for
21 Under the
optimum conditions,
a linear dependence of the guanine a
22 Under
optimum conditions,
a linear range of 50 muM to 10mM is
23 Under
optimum conditions,
a linear relationship between the di
24 However, with these
optimum conditions,
a second stimulation evoked more exo
25 Under the
optimum conditions,
about 31 folds enhancement in detect
26 The
optimum conditions allowed the separation of all the com
27 Under
optimum condition,
amylose content of broken white rice
28 Under the
optimum conditions,
an effectual and a convenient method
29 critical water-extracted pectin (SWEP) under
optimum conditions and contrasted with the conventional
30 FMS, compatibility issues were addressed and
optimum conditions and procedures were identified and de
31 PJ was produced using the
optimum conditions and the quality characteristics such
32 ples were also produced separately under the
optimum conditions and their RS contents were 80.4% and
33 ability to accurately detect activity under
optimum conditions and with crude cell extract samples,
34 The
optimum conditions are obtained within a linear response
35 The predicted
optimum conditions are then used to carry out experiment
36 and others has simplified the selection of "
optimum" conditions,
but it is evident that many workers
37 Under
optimum conditions,
complete recovery of O2-evolving act
38 Under the
optimum conditions,
detection limits of 0.5, 0.6 and 0.8
39 hod was utilized for experimental design and
optimum condition determination.
40 Under the
optimum conditions,
developed method was found to be lin
41 Under the
optimum conditions,
dynamic range was attained in the ra
42 Under the
optimum conditions,
enrichment factor of 11, 9, 9 and 10
43 Under
optimum conditions,
enrichment factors were in the range
44 e activated for homologous recombination; in
optimum conditions,
essentially 100% of the substrate re
45 This GO-based aptasensor under the
optimum conditions exhibited excellent analytical perfor
46 An
optimum condition exists at a cell-capillary tip distanc
47 Under
optimum conditions,
external calibration in solvent coul
48 The
optimum condition for Cd(II) adsorption was established
49 The
optimum condition for the extraction was the proportion
50 The
optimum condition for the formation of PPy-XOD-Fc film i
51 ial measurements indicated that pH 5 was the
optimum condition for the highest protein extraction yie
52 e of this work was to develop a process with
optimum conditions for banana juice.
53 The
optimum conditions for catalysis consisted of 1 mM Mg(2+
54 ce centered design was used to establish the
optimum conditions for clarification of pomegranate juic
55 Optimum conditions for clarifying the AJ were chitosan c
56 Optimum conditions for development of RSLG-E were WPI:18
57 in six edible oil samples were tested under
optimum conditions for DLLME, with a recovery ranging fr
58 The
optimum conditions for dye extraction were found to be 0
59 At first, a study has been made of the
optimum conditions for electrochemical activation of the
60 The
optimum conditions for electrode saturation were reached
61 The
optimum conditions for equol production were pH 8, 30 de
62 The
optimum conditions for extract yield were achieved with
63 The
optimum conditions for extract yield were achieved with
64 Optimum conditions for extracting total phenolic compoun
65 The
optimum conditions for extraction of lycopene from grape
66 The
optimum conditions for extraction were found as follows:
67 Optimum conditions for glycan release were attained at r
68 not oxalic acid itself, that establishes the
optimum conditions for growth, reproduction, pathogenici
69 min) are required to operate the LB-DIHEN at
optimum conditions for ICPMS.
70 cal density of 10 at 605 nm was found as the
optimum conditions for immobilization with response time
71 tcomes for self-assembly ultimately provided
optimum conditions for isolation of either a molecular b
72 Optimum conditions for MAE were determined as 500W, 35%
73 This determined an example of a set of
optimum conditions for Miscanthus germination and demons
74 The
optimum conditions for niosomal formulation were elicite
75 Optimum conditions for OC and AC were 10 min steam blanc
76 Experiments to determine the
optimum conditions for perceiving illusory motion in Eng
77 The results showed that the
optimum conditions for pH, BA and TFA condition, type of
78 m albumen (BSA) and gultaraldehyde (GLA).The
optimum conditions for potentiometric bi-layer biosensor
79 The
optimum conditions for producing germinated Kodo millet
80 sing impedance measurements to determine the
optimum conditions for proliferation.
81 Optimum conditions for sample preparation are given alon
82 ta-protein fragment 1-16 (A beta(1-16)), the
optimum conditions for specific modification involve the
83 tested at varying concentrations to find the
optimum conditions for specific oxidation of only the am
84 In this study,
optimum conditions for target gene modification efficaci
85 The
optimum conditions for the assimilation reaction resembl
86 es of experiments have demonstrated that the
optimum conditions for the batch test to achieve the max
87 Using numerical optimization, the
optimum conditions for the enzymatic extraction of banan
88 increasing size of the alkali ion, reaching
optimum conditions for the largest cesium ion.
89 Optimum conditions for the oxidation of ethyl 1,3-dithia
90 entral-composite design was used to find the
optimum conditions for the preconcentration procedure th
91 The
optimum conditions for the preparation of P-AgNPs were d
92 ical texts are investigated to ascertain the
optimum conditions for the preparation of synthetic ultr
93 The
optimum conditions for the speciation of As(III)/As(V) s
94 w/v) Triton X-100 and 15 mM MgCl(2) provided
optimum conditions for the stabilization of FPP.
95 The
optimum conditions for TiCl(3) as a pre-reductant and th
96 Optimum conditions for toothed ponyfish muscle hydrolysi
97 At the
optimum conditions,
for simultaneous determination by sy
98 Under
optimum conditions,
four separate mutations of the two c
99 The usage of coagulants and flocculants at
optimum conditions has been discussed in this study.
100 Under
optimum conditions (
i.e., 1.0 mL octylamine as the extra
101 Optimum conditions implicate the use of phenyl acrylates
102 synthesized as a result of germination under
optimum conditions in the Kodo millet depicted the germi
103 Optimum conditions included an increased formaldehyde co
104 Under
optimum condition,
it was found that the proposed method
105 temperature, with small deviations from the
optimum condition leading to inhomogeneity and the loss
106 Under the developed
optimum conditions,
limit of detection (LOD) for L. mono
107 Under the
optimum conditions,
limit of detection values were recor
108 Under the
optimum conditions,
limit of detection was found 0.25 ng
109 Under
optimum conditions,
linear ranges for Pb(II) and Cd(II)
110 Under the
optimum conditions,
low limits of detection and quantita
111 Under the
optimum conditions,
melamine was determined in the linea
112 Optimum conditions minimizing total spreading in a turn
113 The
optimum condition obtained was: sonication time 70min, t
114 At
optimum conditions obtained based on desirability functi
115 The
optimum conditions obtained were at column temperature o
116 experimental range of studied variables, the
optimum conditions of 54.03 degrees C and 148.16mbar wer
117 ytochemicals' activities were obtained under
optimum conditions of 7.81min blanching time and 9.24% b
118 Under
optimum conditions of ATPS, the purification of BLIS was
119 Under
optimum conditions of derivatization and microextraction
120 The
optimum conditions of derivatization are: 500muL of isop
121 hemometric approach was used to identify the
optimum conditions of dSPE.
122 The
optimum conditions of electrospraying for minimum drople
123 The
optimum conditions of enzyme activity were pH 7 and a te
124 rients and environmental factors to estimate
optimum conditions of growth.
125 The
optimum conditions of lycopene extraction were confirmed
126 The intensive
optimum conditions of MAE obtained at 80% EtOH, 50mL/g,
127 The
optimum conditions of MAE were as follows: X1=2.15min; X
128 FO for As(V) was found to be 22.1 mg/g under
optimum conditions of pH 4, contact time 3h and temperat
129 Depending on the extraction procedure, at
optimum conditions of steaming the results indicate that
130 The
optimum conditions of the both processes were measured u
131 Optimum conditions of the different Citrus seeds' valori
132 AED method in the case of UAE, the intensive
optimum conditions of the extraction, i.e. 70% EtOH, 30m
133 deviation values calculated for copper under
optimum conditions of the method were 1.5 and 5.1 ug L(-
134 AED of 250J/mL can be used to determine the
optimum conditions of the scale-dependent parameters i.e
135 Under the
optimum conditions of the VA-RP-SFDF-LPME-micro-sampling
136 thermal procedures for the estimation of the
optimum conditions of treatment of different honey types
137 SO) was microencapsulated by spray drying at
optimum conditions:
oil/total solid material at 20% (w/w
138 SO) was microencapsulated by spray drying at
optimum conditions:
oil/total solid material at 20% (w/w
139 Under
optimum conditions,
one aliquot of TAML 1a (400 nM) cata
140 n kinetic and equilibrium studies, under the
optimum condition (
pH = 2; amount of MIONPs = 87.15 mg;
141 at bran in solid state fermentation (SSF) at
optimum conditions (
pH 7.0 at 30 degrees C after 10 days
142 Under
optimum conditions (
pH = 2; amount of damped MHAMS-MIONP
143 bosep Coregel 87H3 column was used under the
optimum conditions predicted: mobile phase of H2SO4 0.00
144 Under
optimum conditions (
salt concentration: 5.0% w/v, pH: 7.
145 The
optimum conditions selected (TA as solvent of extraction
146 Under the
optimum conditions,
several validation variables such as
147 Under
optimum conditions,
single pulse responses with a full w
148 Under
optimum conditions,
solid samples were extracted with et
149 e easily monitored and regulated to maintain
optimum conditions that produce consistent yields of rAA
150 In the
optimum conditions the biofuel cell produced the power d
151 Under
optimum conditions the corresponding experimental values
152 Under
optimum conditions the present sensor exhibited high sen
153 At the
optimum conditions the sensor has a linear response in t
154 Under
optimum condition,
the developed immunosensor exhibited
155 Under the
optimum condition,
the fluorescent intensity of the prob
156 In the
optimum condition,
the linear range of H2O2 determinatio
157 Under the
optimum conditions,
the analytical features were obtaine
158 Under
optimum conditions,
the aptasensor exhibited a linear re
159 Under
optimum conditions,
the biomimetic sensor was employed f
160 Under
optimum conditions,
the boundary disappears, and the sta
161 Under
optimum conditions,
the calibration curves showed high l
162 Under the
optimum conditions,
the calibration graph was found to b
163 Under
optimum conditions,
the calibration graphs were linear i
164 Under the
optimum conditions,
the calibration plots were linear wi
165 Under
optimum conditions,
the conductivities achieved in under
166 Under
optimum conditions,
the current response is linear to it
167 Under the
optimum conditions,
the detection limit (3sigma) was 0.9
168 As a result of the analyzes performed under
optimum conditions,
the detection limit of our method wa
169 Under the
optimum conditions,
the detection limit was 0.6ngg(-1).
170 Under the
optimum conditions,
the detection limits (DL) of the met
171 Under
optimum conditions,
the detection limits were 0.02microg
172 Under the
optimum conditions,
the developed SFDF-LPME-FAAS and FAA
173 Under
optimum conditions,
the dsDNA/GE biosensor exhibited exc
174 Under
optimum conditions,
the electrochemical signals declined
175 Under
optimum conditions,
the electrochemical signals declined
176 Under
optimum conditions,
the enzymes produced polymers rangin
177 Under
optimum conditions,
the FPSE method showed good accuracy
178 Under the
optimum conditions,
the limit of detection (LOD), the li
179 Under the
optimum conditions,
the limit of detection and quantific
180 Under
optimum conditions,
the limit of detection for Claudin 7
181 Results demonstrate that, under
optimum conditions,
the limit of detection of the immuno
182 Under the
optimum conditions,
the limits of detection and quantifi
183 Under the
optimum conditions,
the limits of detection and the limi
184 In
optimum conditions,
the linear calibration range of 1.0
185 time, and ionic strength were studied and at
optimum conditions,
the linear range of 1-500 (ug L(-1))
186 After applying the
optimum conditions,
the linear range of the developed im
187 Under
optimum conditions,
the linear range of the method was 0
188 At
optimum conditions,
the linear ranges of 0.4-700.0 (ug L
189 Under the
optimum conditions,
the linear response range for sudan
190 Under the
optimum conditions,
the linearity of this method ranged
191 Under
optimum conditions,
the linearity range was obtained in
192 Under
optimum conditions,
the linearity was at a concentration
193 Under
optimum conditions,
the linearity was in the range of 0.
194 At
optimum conditions,
the linearity, limits of detection a
195 At the
optimum conditions,
the norm of NAS vectors increased li
196 Under
optimum conditions,
the oxidation peak current enhanced
197 Under the
optimum conditions,
the proposed device exhibited 50% in
198 Under
optimum conditions,
the proposed sensor displayed wide l
199 At
optimum conditions,
the proposed sensor exhibits a low d
200 Under
optimum conditions,
the Pt/ZnO/AChE/Chitosan bio-electro
201 Under
optimum conditions,
the relative standard deviation, ads
202 Under
optimum conditions,
the results demonstrated that this e
203 Under the
optimum conditions,
the results have shown the order of
204 Under
optimum conditions,
the sensor shows a linear logarithmi
205 Under
optimum conditions,
the two approaches also give compara
206 ese studies were conducted in controlled and
optimum conditions;
the actual outcrossing rate in natur
207 ltrated with Single Bond (SB) adhesive under
optimum conditions;
the remaining, adjacent fraction was
208 h our experimental study, we have identified
optimum conditions to achieve high preconcentration rati
209 n (NaOH: 0.115 mol/L) were determined as the
optimum conditions to maximize the responses like color
210 The
optimum conditions to obtain NCs were found to be 2.0 mg
211 The objective of this study is to find
optimum conditions to valorize chestnut shell bioactive
212 validation experiments were conducted, under
optimum conditions,
to verify predictions and adequacy o
213 pproximately two-fold growth rate per day in
optimum conditions,
U. meridionalis grows at a daily rat
214 nce of reaction system hydrophobicity on the
optimum conditions using immobilised Candida antartica l
215 Under
optimum conditions,
UV-NTA-Fenton exhibited higher effic
216 In the case of CL corn starch, the
optimum condition was 70 degrees C and pH 12.
217 The
optimum condition was 90 degrees C, 4 mL/min, and 25 wt%
218 The results revealed that the
optimum condition was achieved at a concentration of 22
219 The
optimum condition was recorded at 3:2 DNA:MNP ratio, 1 H
220 The
optimum condition was: pH 8.43 and NaCl concentration 0.
221 The efficiency of extraction under these
optimum conditions was found to be 1133.86mg/L of phenol
222 hing of fresh whole alfalfa leaves under the
optimum conditions was helpful for avoiding the appearan
223 and the results showed that PGH pectin under
optimum conditions was low methoxyl (about 12.1%) with m
224 lds enhancement in detection power under the
optimum conditions was recorded with respect to direct F
225 Under
optimum conditions,
we achieved complete erythrocyte lys
226 The desirability values of the obtained
optimum conditions were 0.63 (HMT 15) and 1.00 (HMT 25 a
227 The
optimum conditions were 1140microL of water, 125mg of Zn
228 The
optimum conditions were 1140uL of water, 125mg of ZnSO(4
229 The
optimum conditions were 1840muL of acetonitrile and 160m
230 Optimum conditions were 70 degrees C, 15.5 % sucrose, an
231 The obtained
optimum conditions were applied to drinks.
232 The
optimum conditions were as follows: PVA at 3.92 g/100 mL
233 The
optimum conditions were at 30 min time, 700 rpm stirring
234 The obtained results for both methods under
optimum conditions were compared.
235 The
optimum conditions were conducted as 6.025 g/g of Span 2
236 The voltage, flow rate and distance as
optimum conditions were determined as 23 kV, 1.7 mL/h an
237 The extraction efficiency for the
optimum conditions were determined as 96.5% and 83.6% fo
238 The
optimum conditions were determined as HCl concentration
239 The
optimum conditions were determined as temperature of 59
240 Based upon this strategy,
optimum conditions were determined for investigating the
241 Optimum conditions were determined to be 40 degrees C an
242 clear apple juice (AJ) was investigated, the
optimum conditions were determined using RSM, and the ef
243 Optimum conditions were DVB/CAR/PDMS fiber, no pH adjust
244 eld and zeta potential of zein nanofibers in
optimum conditions were estimated as 4.054 mg/kg, 0.649
245 Estimated
optimum conditions were found as x(1) = 6.0, x(2) = 1:1,
246 The
optimum conditions were found for the immobilization of
247 The
optimum conditions were found to be the use of a 4-fold
248 Optimum conditions were found using statistical optimiza
249 Optimum conditions were identified using the established
250 gradation rates of alfalfa treated under the
optimum conditions were much lower than the control alfa
251 According to the presented results, the
optimum conditions were obtained when the sample was dil
252 The
optimum conditions were selected as 10 mg of Zr-NPs, 75
253 The
optimum conditions were: extraction time of 17 min, extr
254 The
optimum conditions were: steaming time 4.36 min, particl
255 ry of sterols were investigated to determine
optimum conditions which were tested for sterol extracti
256 on Smoluchowski's perikinetics theory at the
optimum conditions,
which gave R(2) > 0.900.
257 Our structure under
optimum conditions yields maximum shifting in the positi