ライフサイエンスコーパス: DSC

1 DSC and FT-IR analysis of the flours evidenced a "stabil

2 DSC and UV-monitored thermal denaturation experiments in

3 DSC and water sorption measurements were used to study t

4 DSC and XRD studies indicated that the addition of oil t

5 DSC chromatograms were compared with 9 standard compound

6 DSC confirmed encapsulation of erlotinib within CYnLIP.

7 DSC control experiments do not show the second domain, s

8 DSC CT may be sufficiently accurate to diagnose clinical

9 DSC images were postprocessed to yield parametric images

10 DSC investigations reveal the presence of four endotherm

11 DSC MR images and oxygen 15-labeled water (H(2)[(15)O])

12 DSC MR imaging with gadodiamide and without preload show

13 DSC occurs out of the first-excited singlet state, and i

14 DSC of all the lipid mixtures, and of all the lipid + de

15 DSC results showed that the gelatinization temperatures

16 DSC results showed that the onset of melting and solids

17 DSC SAGs encode features not previously identified in Pa

18 DSC shows that both amyloidogenic (hIAPP(1-37)) and larg

19 DSC studies confirmed that a solely thermal process does

20 DSC studies revealed increased values of onset and peak

21 DSC thermograms revealed no transition peak in all treat

22 DSC thermographs provide evidence of a shift from predom

23 DSCs fabricated using such multilayer arrays yield a pow

24 DSCs incorporating these selective and self-aligned SiO(

25 myloid deposition, with a similarity of 40% (DSC).

26 ved extensive and complex modifications to a DSC to mount it in the synchrotron beam.

27 DSPEC was tested with two more-red absorbing DSC variations, one utilizing N719 dye with an I3(-)/I(-

28 ter-rater variability, reaching an accuracy (DSC) of 0.826 for healthy subjects and 0.835 people with

29 Mg(2+) binding to GCAP1 dramatically alters DSC and NMR spectra, indicating metal-induced protein co

30 ntrapment efficiency (EE), thermal analysis (DSC and TGA), X-ray diffractometry (XRD), Fourier transf

31 15)N NMR spectroscopy, and thermal analysis (DSC).

32 d phase extraction using silica gel C-18 and DSC-SCX cation-exchange resin.

33 spike frequency in the simultaneous ASCE and DSC bursts.

34 ASCE and DSC coordinating neurons link the segmentally distribute

35 ferent sets of motor neurons enable ASCE and DSC to encode details of each oscillation that are neces

36 a two-state model to far- and near-UV CD and DSC thermal unfolding data.

37 o-state analyses of optical melting data and DSC measurements provided evaluations of the thermodynam

38 CO(2)-EGA and DSC thermal profiles were highly similar, with correlati

39 The fluorescence and DSC results, considered together, may indicate that the

40 ructural properties investigated by FTIR and DSC showed a clear interaction between fish gelatin and

41 Isothermal gravimetric and DSC measurements showed that the reaction K(2)B(12)F(12

42 FT-IR and DSC data indicated that the two polyphenols exhibit a po

43 The morphology and DSC curve of the nanothermite membrane have been investi

44 Moreover, overlapping NMR and DSC data reveal that the DSC-signals parallel the meltin

45 Results from NMR and DSC indicate that both the heat- and cold-induced S-->D

46 tics of these fats were examined by pNMR and DSC at three different temperatures.

47 which is further verified by rheological and DSC tests.

48 RVA studies and DSC endotherms suggested molecular damage and amylose-li

49 Furthermore, both TG and DSC results support the formation of inclusion complexes

50 rties of the CPCMs were determined by TG and DSC.

51 The TGA and DSC were used to analyze the thermodynamic behavior of d

52 Test-tube swelling, TGA, and DSC experiments were also performed on pyridine(polar-ar

53 The combination of XRD and DSC has further allowed us to identify mixtures of phase

54 The XRD and DSC results indicated that the amorphous TTO-beta-CD com

55 microparticles were analysed by SEM, XRD and DSC.

56 t to study the structure of the complex and, DSC studied demonstrated the complexation.

57 These commonly applied DSC electrolyte components are used for the first time t

58 vitro assays (DPPH radical scavenging assay, DSC studies for oxidative induction temperature of linol

59 organic sensitizer has enabled us to attain DSC efficiencies of 8.4% and 9.2% at a simulated light i

60 of the DSPEC and D35/[Co(bpy)3](3+/2+) based DSC gave the best overall performance and demonstrated t

61 Co(II/III)-based DSC device characterizations revealed that dyes WW-5 and

62 cal for traditional liquid electrolyte-based DSCs.

63 parable to that of TiO(2) nanoparticle-based DSCs.

64 In particular, the good agreement between DSC and Optical measurements suggests that such NIRS met

65 similar results for quantitative CBF between DSC MR imaging and H(2)[(15)O] PET.

66 Both DSC and TGA of the inclusion complexes showed the presen

67 racteristics of surface free-fat analyzed by DSC were consistent with their fatty acid compositions a

68 tract and physical mixtures were analyzed by DSC, FT-IR, (1)H NMR and DLS.

69 l analysis of their self-organized arrays by DSC, X-ray diffraction, molecular modeling, and solid-st

70 New compounds are characterized by DSC, TGA, melting point, single-crystal X-ray diffractio

71 clusion complexes were also characterized by DSC, TGA, SEM and X-ray analyses.

72 As determined by DSC, rhodopsin exhibited a scan-rate-dependent irreversi

73 crystallinity of all salts was documented by DSC, 13C CP-MAS NMR, and XRPD.

74 mulations to that measured experimentally by DSC.

75 ut the center of the phase diagram mapped by DSC, but not at all compositions and temperatures in the

76 om heat effects on decomposition measured by DSC and by transposed temperature drop calorimetry, and

77 ect on protein folding stability measured by DSC.

78 olding profiles of Ubq-UIM were monitored by DSC and far-UV and near-UV CD spectroscopies.

79 ence for the self-segregation is provided by DSC, SAXS, WAXS, and TEM studies; in two of the samples,

80 tures of phases which appeared phase-pure by DSC.

81 and lamellar nanostructures, as revealed by DSC, SAXS, and AFM, were generated.

82 erization in two distinct stages as shown by DSC analyses.

83 The Differential Scanning Calorimeter (DSC) analysis showed that the apo- and holo-Lf in aqueou

84 A differential scanning calorimeter (DSC) analyzed phase transitions in bulk samples of bovin

85 Differential Scanning Calorimeter (DSC) showed better thermal stability of resistant starch

86 d using a differential scanning calorimeter (DSC).

87 obal thermodynamic analysis of calorimetric (DSC, ITC) and spectroscopic (CD) data obtained on monito

88 Differential scanning calorimetric (DSC) analysis of the ADC indicated that the conjugation

89 Differential scanning calorimetry (DSC) & novel FT-IR analysis based on peak symmetry measu

90 (TG) and differential scanning calorimetry (DSC) analyses for 4 indicate complex reaction pathways,

91 owed that differential scanning calorimetry (DSC) analysis of blood serum proteins could reveal the p

92 Differential scanning calorimetry (DSC) analysis revealed a single glass transition tempera

93 omametry, Differential Scanning Calorimetry (DSC) and Circular Dichroism (CD) spectropolarimetry for

94 tudied by differential scanning calorimetry (DSC) and circular dichroism (CD).

95 is (TGA), differential scanning calorimetry (DSC) and Fourier transform-infrared spectroscopy (FT-IR)

96 s well as differential scanning calorimetry (DSC) and polarizing microscopy, confirm the presence of

97 Differential scanning calorimetry (DSC) and SDS denaturation demonstrated that removal of t

98 by use of differential scanning calorimetry (DSC) and thermal gravimetric analysis (TGA).

99 Differential scanning calorimetry (DSC) and thermogravimetric analysis (TGA) evidenced that

100 out using differential scanning calorimetry (DSC) and thermogravimetric analysis (TGA) respectively.

101 ventional differential scanning calorimetry (DSC) and thermogravimetric analyzer (TGA).

102 addition, differential scanning calorimetry (DSC) and time domain nuclear magnetic resonance (TD-NMR)

103 ion using differential scanning calorimetry (DSC) and UV absorbance spectroscopy.

104 nt (SFC), differential scanning calorimetry (DSC) and X-ray diffraction (XRD).

105 ysis, and differential scanning calorimetry (DSC) and, in the case of 12, with single crystal X-ray s

106 ons using differential scanning calorimetry (DSC) by varying light-cure initiation times.

107 Differential scanning calorimetry (DSC) characterization showed that the capsulation effici

108 with the differential scanning calorimetry (DSC) data for the peaks corresponding to dissociation of

109 Differential scanning calorimetry (DSC) data imply that unfolding of apo-ATH is accompanied

110 These and differential scanning calorimetry (DSC) data pointed to only limited amylopectin retrograda

111 mpared to differential scanning calorimetry (DSC) data.

112 Differential scanning calorimetry (DSC) indicates a reversible low temperature transition f

113 Differential scanning calorimetry (DSC) is the robust thermo-analytical machine that permit

114 mpared to Differential Scanning Calorimetry (DSC) measurements as the gold standard method for measur

115 ined with differential scanning calorimetry (DSC) ranged from 3.8 to 7.1J/g, and the initial temperat

116 Differential scanning calorimetry (DSC) reveals that the longer polyyne rotaxanes (C16, C18

117 ies using differential scanning calorimetry (DSC) showed increased inhibitory effects on palm oil cry

118 FTIR) and differential scanning calorimetry (DSC) studies.

119 peaks in differential scanning calorimetry (DSC) were detected at any level of pressure treatment wh

120 metry and differential scanning calorimetry (DSC) with ex situ X-ray diffraction analysis.

121 itration, differential scanning calorimetry (DSC), and isothermal titration calorimetry (ITC), reveal

122 ry (ITC), differential scanning calorimetry (DSC), and nuclear magnetic resonance (NMR).

123 (FT-IR), Differential Scanning Calorimetry (DSC), and Scanning Electron Microscopy (SEM).

124 attering, differential scanning calorimetry (DSC), and scanning transmission electron microscopy (STE

125 copy, and differential scanning calorimetry (DSC), and the structure was confirmed by X-ray single-cr

126 is (TGA), differential scanning calorimetry (DSC), and ultimate analysis; their thermal conductivity,

127 py (POM), differential scanning calorimetry (DSC), and X-ray diffraction.

128 urements, differential scanning calorimetry (DSC), crystal structure determination, UV-vis absorption

129 proaches (differential scanning calorimetry (DSC), fluorescence resonance energy transfer, and confoc

130 I-TOF MS, differential scanning calorimetry (DSC), fluorescence-quenching, infrared and circular dich

131 hy (XRD), differential scanning calorimetry (DSC), Fourier-transform infrared spectroscopy (FT-IR) an

132 Differential scanning calorimetry (DSC), headspace oxygen and solid phase microextraction g

133 means of differential scanning calorimetry (DSC), serum protein electrophoresis, and free light chai

134 ng power, differential scanning calorimetry (DSC), the Rapid Visco Analyser (RVA) and in vitro digest

135 py (EDX), differential scanning calorimetry (DSC), X-ray diffraction patterns (XRD) and zeta potentia

136 (EA), and differential scanning calorimetry (DSC).

137 sed using differential scanning calorimetry (DSC).

138 ventional differential scanning calorimetry (DSC).

139 (CD) and differential scanning calorimetry (DSC).

140 (TG) and differential scanning calorimetry (DSC).

141 erized by Differential Scanning Calorimetry (DSC).

142 tudied by differential scanning calorimetry (DSC).

143 uced from differential scanning calorimetry (DSC).

144 XRD) with differential scanning calorimetry (DSC).

145 picted by differential scanning calorimetry (DSC).

146 (XRD) and differential scanning calorimetry (DSC); and the interaction between gallic acid and zein w

147 (TG) and differential scanning calorimetry (DSC)] is frequently used in materials science applicatio

148 asured by differential scanning calorimetry (DSC, R(2) = 0.988).

149 in several alterations in the cy3glc-beta-CD DSC thermogram.

150 Using a combination of CD, DSC and NMR techniques, we determined the thermodynamics

151 s photoanode in a dye-sensitized solar cell (DSC).

152 in series with a dye-sensitized solar cell (DSC).

153 irus (HCMV)-infected decidual stromal cells (DSC), particularly when DSCs express HLA-C2.

154 Dye-sensitized solar cells (DSCs) are an attractive renewable energy technology curr

155 tions of current dye-sensitized solar cells (DSCs) based on random networks of nanoparticles.

156 Dye-sensitized solar cells (DSCs) employing the [Co(bpy)3](3+/2+) redox mediator hav

157 of Gratzel-type dye sensitized solar cells (DSCs) in the early 1990s, there has been an exponential

158 oss mechanism in dye-sensitized solar cells (DSCs) is recombination at the TiO(2)/electrolyte interfa

159 electrolyte for dye-sensitized solar cells (DSCs) the E(fb) of Zn(2)SnO(4) was found to be strongly

160 t performance in dye-sensitized solar cells (DSCs) under AM1.5G simulated sunlight at a light intensi

161 on absorption in dye-sensitized solar cells (DSCs) when used as a pi-bridge.

162 d candidates for dye-sensitized solar cells (DSCs).

163 in liquid-based dye-sensitized solar cells (DSCs).

164 photovoltage in dye-sensitized solar cells (DSCs).

165 Dental stem cells (DSCs) were isolated from adult human tooth pulp and seed

166 rved for the open-circuit voltage in certain DSC electrolytes is explained in terms of the higher rat

167 ench, obtained during the Deepsea Challenge (DSC) Expedition.

168 osus (PC) muscle of dorsal skinfold chamber (DSC) preparations in mice.

169 ng between denaturing agents, characteristic DSC thermogram, gradual melting of secondary structure,

170 rdered nanoscale crystals (crystallinity chi(DSC) >/= 90%) of strictly linear polyethylene (<0.7 meth

171 unction measured by the Digit Symbol Coding (DSC) task subtest of the Wechsler Adult Intelligence Sca

172 cy for reader1 (Dice Similarity Coefficient (DSC = 0.68) and reader2 (DSC = 0.70).

173 validation, the Dice Similarity Coefficient (DSC) has been calculated.

174 ional overlap, Dice similarity coefficients (DSC) between the imaging findings were calculated.

175 uality traits of potato: tuber flesh colour, DSC onset, tuber shape and enzymatic discoloration.

176 state through donor-strand complementation (DSC) and cleft-mediated anchorage.

177 Consequently, DSC coupled with PCA is one of the techniques that might

178 version efficiencies of copper(I)-containing DSCs and highlight areas that remain ripe for developmen

179 of FPs is limited by dark-state conversion (DSC) and irreversible photobleaching, which occur on dif

180 In cosensitized DSCs, dyes are intimately mixed, and intermolecular char

181 in orchestrating mineralization of cultured DSCs.

182 samples were immunostained for desmocollin (DSC)2, occludin (OCLN), desmoglein (DSG)1, tight junctio

183 s study was to investigate how desmocollins (DSCs), transmembrane components of desmosomes, are regul

184 blood volume (rCBV) was estimated from each DSC MR acquisition.

185 e, transport, and recombination in efficient DSCs based on the [Co(bpy)3](3+/2+) redox mediator, with

186 ibility-weighted contrast material-enhanced (DSC) MR acquisitions, which were performed without prelo

187 For DSC onset, we found 12 significant gene expression, 5 me

188 ine), are presented as new redox couples for DSCs.

189 a new research and development direction for DSCs.

190 bolism with BL amyloid deposition was found (DSC: 47%).

191 alpy change of denaturation (DeltaHcal) from DSC and molar ellipticities from CD were statistically a

192 numbers, and other parameters obtained from DSC and ITC.

193 were characterized by Temperature-Ramp FTIR, DSC & CMC measurements.

194 nts within a few hundred seconds even at T(g,DSC) - 25 K (T(g,DSC) is the glass transition temperatur

195 At T(g,DSC) - 5 K, the mobility of these two subsets differs by

196 hundred seconds even at T(g,DSC) - 25 K (T(g,DSC) is the glass transition temperature of bulk polysty

197 ases with temperature and equals 7 nm at T(g,DSC).

198 Conventional Gratzel DSCs use ruthenium(II) complexes as sensitizers, and the

199 ibility contrast perfusion weighted imaging (DSC-PWI).

200 relationships were analyzed for the dyes in DSC devices with the highest performance observed at 17.

201 y SOM oxidative reactions normally hidden in DSC analysis by simultaneous endothermic reactions of so

202 Seven peaks were observed in DSC chromatograms, 2 main peaks strongly correlated with

203 bling copper(I) complexes for use as dyes in DSCs, a research area that has been active since approxi

204 er complexes as promising redox mediators in DSCs both criteria are satisfied to enhance power conver

205 ficient Ru(II) sensitizers suited for use in DSCs.

206 gar estimation, SDS-PAGE, GPC, color, FT-IR, DSC, thermal stability, solubility, emulsifying, foaming

207 time-dependent techniques, such as NMR, IR, DSC, and PXRD.

208 tability of poppy seeds using non-isothermal DSC.

209 simple modification to a standard laboratory DSC instrument, in contrast to previous reports which ha

210 ng branch, as revealed by detailed magnetic, DSC, and Mossbauer studies.

211 The mean DSC task scores were 46.26 points for the physical activ

212 resent in vivo ensemble assays for measuring DSC and irreversible photobleaching under continuous and

213 calorimetry coupled with optical microscope (DSC-thermomicroscopy), infrared spectroscopy (FTIR) and

214 At 24 months, DSC task and HVLT-R scores (adjusted for clinic site, se

215 Moreover, DSC results showed that coupling of CA with betaLg signi

216 Cohort A: 31 patients had MRA, DSC-PWI and BOLD data.

217 d liposomes was monitored by HATR-FTIR, NMR, DSC, and cryo-TEM.

218 of the NPs were characterized by HRTEM, NMR, DSC, TGA, UV/vis, OPM, and XRD studies.

219 in the solid state (CD, UV-vis, Raman, NMR, DSC, TGA, X-ray, AFM, SEM).

220 e-crystal XRD, multinuclear solid-state NMR, DSC, ionic conductivity, and SEM) as well as the theoret

221 The ability of DSC permeability imaging to identify contrast enhancing

222 Twenty-five studies reported accuracy of DSC CT for diagnosing CAD in difficult to image patients

223 curves, which were performed with the aid of DSC-photovisual, provided information concerning the the

224 ased on the global thermodynamic analysis of DSC and CD spectroscopy data, which led to a detailed de

225 Conversely, analysis of DSC data suggests that earlier light-activation may limi

226 37) peptide on membranes by a combination of DSC and solid-state NMR spectroscopy.

227 ess known as recombination in the context of DSC operation, is an important loss mechanism in these s

228 l changes of starch were studied by means of DSC and XRD.

229 estimates of sensitivity and specificity of DSC CT for detecting 50% or greater arterial stenosis we

230 ess of 12%, increasing the attractiveness of DSCs as an alternative to conventional photovoltaics.

231 and using the assemblies for fabrication of DSCs.

232 up opportunities for further improvement of DSCs.

233 faces in general and for the optimization of DSCs.

234 fferential scanning calorimetry-photovisual (DSC-photovisual), coupled thermogravimetry-infrared spec

235 PLM, DSC and PXRD were utilized to characterize the spray-dri

236 cerol (TAG) composition, thermal properties (DSC), polymorphism and microstructural properties were s

237 If chemotherapy is effective, serum proteins DSC curve of non-small cellular lung cancer (NSCLC) case

238 larity Coefficient (DSC = 0.68) and reader2 (DSC = 0.70).

239 Stop-and-return DSC studies showed that SHSs and CBEs exhibited differen

240 with isothermal and dynamic temperature scan DSC with light-curing occurring immediately, or at 5 or

241 lour samples based on differential scanning (DSC) measurements.

242 inter-rater variability, with a Dice score (DSC) of 0.967 at C2/C3 level.

243 The results of (13)C NMR, SEM, DSC and X-ray analyses showed that these MC levels were

244 ct to how the soil mineral matrix affects TG-DSC results, which could confound the interpretation of

245 lorimetry (TG-DSC), evolved gas analysis (TG-DSC-FTIR) and High-resolution mass spectra (HRMS).

246 ry and differential scanning calorimetry (TG-DSC), evolved gas analysis (TG-DSC-FTIR) and High-resolu

247 tes a valuable complement to conventional TG-DSC analysis for SOM characterization.

248 showed the technical validity of coupling TG-DSC and CO(2)-EGA, with more than 80% of the theoretical

249 erse soil samples from across the U.S. to TG-DSC coupled with IRGA-based EGA.

250 s (EGA) as a supplement or alternative to TG-DSC to improve the characterization of SOM.

251 Simultaneous TG/DSC analyses (STA) demonstrated their remarkable thermal

252 e characterized by XRD, SEM, TEM, FTIR, TGA, DSC and UV-visible spectroscopy.

253 Fluorescence micrographs, TGA, DSC and FTIR spectra suggested the hypothesis inclusion

254 iver Shale and characterized using SEM, TGA, DSC, and nitrogen adsorption.

255 tron microscopy (SEM), thermal analysis (TGA-DSC), tristimulus colorimetry, as well as, their humidit

256 characterized by SEM-EDX, FT-IR, XRD and TGA-DSC techniques.

257 TGA/DSC data for all of the products demonstrate the thermal

258 Mutagenesis indicated that DSC controls the stability of the chaperone-subunit comp

259 ysis of closely related red FPs reveals that DSC and irreversible photobleaching are not always conne

260 These findings suggest that DSC perfusion MR imaging may be used to differentiate re

261 The DSC and DMA results are consistent with our previous sug

262 The DSC curve was used to calculate the purity of the lactul

263 The DSC data showed lower transition temperatures and enthal

264 The DSC melting temperature was lowered by 6 degrees C and t

265 The DSC results indicated that the PEG/RMS ss-CPCM was a pro

266 The DSC SAGs are also distinguished by relative greater abun

267 The DSC technique coupled with microscopy made it possible t

268 The DSC technique was used to confirm the encapsulation.

269 The DSC thermograms of smaller C(cage)-appended trimers indi

270 The DSC thermograms showed that DAGs changed the melting and

271 o be thermal stable, as characterized by the DSC data for the sample after 200 thermal cycles.

272 In such cases, the DSC endotherm reports on the presumably highly cooperati

273 reatment fails, notable changes occur in the DSC profile of NSCLC patient's blood serum.

274 ince the characteristic modifications in the DSC profiles might serve as calorimetric markers when no

275 dration processes were also reflected in the DSC results, while the TGA ones showed that gluten netwo

276 Crystallisation peaks in the DSC thermograms of the oil samples shifted to lower temp

277 tron transfer from electrolyte to dye in the DSC.

278 attern-generating kernel--IRSh--inhibits the DSC coordinating neuron that copies each burst in return

279 Analysis of the DSC data using a modified Landau theory indicates that t

280 -E isomerization as well as the shape of the DSC exotherm.

281 efficiency and the electron lifetime of the DSC.

282 and TEM studies; in two of the samples, the DSC thermograms showed two distinct endotherms associate

283 We demonstrate that the DSC approach might be highly beneficial, especially for

284 overlapping NMR and DSC data reveal that the DSC-signals parallel the melting of the major component

285 Therefore, DSC results exhibited significant effect on temperature

286 distribution at all temperatures within this DSC transition.

287 of beta-chitosan were characterised through DSC, XRD and SEM, respectively.

288 TSA approach was a promising alternative to DSC-PWI for detecting hypoperfusion in subacute stroke p

289 tant advantage of the technique, compared to DSC, is that the signal-to-noise ratio is not reduced wh

290 bFGF, and BMP7 were up-regulated in treated DSCs.

291 tarch, 10.10% resistant starch (RS), and two DSC endotherms: 1) starch gelatinization, and 2) melting

292 Using DSC permeability imaging in stroke patients without an A

293 rich DNA dodecamer (CGCGAATTCGCG)2 and using DSC were found to increase the melting transition by up

294 Via DSC, the palmitic and stearic-based surfactants only ass

295 ation and polymorphisms was investigated via DSC, dynamic light scattering, transmission electron mic

296 ed by microscopy, HPAEC-PAD, ATR-FTIR, WAXS, DSC and susceptibility towards acid and enzyme hydrolysi

297 idual stromal cells (DSC), particularly when DSCs express HLA-C2.

298 he room temperature phase and ZIF-zni, while DSC measurements indicate the entropic stabilization of

299 GBM, underwent EBRT, and were examined with DSC MR imaging, which revealed progressive contrast enha

300 holesterol on such domains were studied with DSC and various fluorescence-based approaches.