ライフサイエンスコーパス: be prepared by

1 These nanovaccines were prepared by (1) producing tandem CpG and shRNA via

2 (11)C-metformin was prepared by (11)C-methylation of 1-methylbiguanide.

3 UMS of human urine was prepared by (13)C2-dansyl labeling of a pooled sampl

4 These proline analogues were prepared by [2 + 2] photocycloaddition of (2-allyla

5 2-philic agent alternating between GO layers are prepared by a facile coating process for highly effi

6 lytes (SPEs) with tunable network structures are prepared by a facile one-pot reaction of polyhedral

7 als exhibit asymmetrical dumbbell shapes and are prepared by a parallel tectonic approach under ambie

8 he 2,3-bis(1-naphthyl)piperazine derivatives are prepared by a resolution method using commercially a

9 epitaxially grown alkane layers on graphene are prepared by a simple drop-casting method and greatly

10 Li3V2(PO4)3@carbon hierarchical microspheres are prepared by a solvothermal reaction and subsequent a

11 The results demonstrate that BP can be prepared by a facile method and may be applied as an

12 Several types of hierarchical zeolites can be prepared by a large number of different techniques.

13 eries of 2-(3'-indolyl)tetrahydrofurans have been prepared by a DDQ-mediated oxidative cycloetherific

14 24(C identical withCPh)14(PPh3)4](SbF6)2 has been prepared by a direct reduction method.

15 This consensus report has been prepared by a European expert panel of the EAACI In

16 ri(ethynylene)(p-terphenyl-2,4''-diyl), have been prepared by a linear stepwise oligomerization-cycli

17 original spiropyrrolizidine derivatives has been prepared by a one-pot three-component [3 + 2] cyclo

18 ts of the cyclic tetrapeptide apicidin, have been prepared by a three-step process involving copper-c

19 This is prepared by a co-precipitation method that involves t

20 s carbon-fiber film for wearable electronics is prepared by a facile and scalable method through pyro

21 photocatalytic activity toward CO2 reduction is prepared by a facile oxidation-based hydrothermal rea

22 This agent was prepared by a concise synthetic route and formulated

23 The multi-functional sensor was prepared by a facile sonochemical method via in situ

24 anoporous gold film with pore size of ~20 nm was prepared by a metallic corrosion method, and the pur

25 An enzyme free glucose sensor was prepared by a molecular imprinting method (MIP).

26 g of reduced graphene oxide/Rh nanoparticles was prepared by a one-pot reaction process.

27 The Diels-Alder substrate was prepared by a regioselective one-pot three-component

28 equipped with a 3-aminopropyl spacer moiety was prepared by a sequential assembly of monosaccharide

29 uter carbon layer), and mesoporous structure was prepared by a simple and green one-pot hydrothermal

30 MC and NCs films were prepared by a casting method in three different pro

31 one (2-NN) with beta-cyclodextrin (beta-CD), were prepared by a co-precipitation method.

32 In the first step, Pt NPs were prepared by a colloidal approach and subsequently f

33 The target functional copolymers were prepared by a controlled radical copolymerization o

34 The BP-PLGA microspheres (20-63 mum) were prepared by a double water-oil-water emulsion metho

35 These complexes were prepared by a formal 1,4-proton migration reaction

36 ytic manganese nanoparticles (Mn NPs), which were prepared by a hydrothermal method.

37 The catalysts were prepared by a hydrothermal precipitation method tha

38 NLCs were prepared by a melt emulsification-ultra sonication

39 patient populations including long-term care were prepared by a multidisciplinary expert panel of the

40 Lycopene-loaded OEGCG nanoparticles (NPs) were prepared by a nano-precipitation method, followed b

41 Endochin-like quinolones (ELQ) were prepared by a novel chemical route and assessed for

42 tes with varying degree of substitution (DS) were prepared by a novel solvent-free organocatalytic me

43 es) with N-heterocyclic carbene substituents were prepared by a recently discovered route.

44 ticles with different sizes and morphologies were prepared by a seed-mediated nucleation and growth t

45 In this study, dahlia-like MoS2 nanosheets were prepared by a simple hydrothermal method and charac

46 )-loaded PLGA nano- and microparticles (NMP) were prepared by a single emulsion solvent evaporation m

47 stalline Ca3-xTbxCo4O9 (x = 0.0-0.7) samples were prepared by a solid-state reaction technique.

48 Cell samples were prepared by a technique that minimally affects the

49 The rotaxanes were prepared by a templated clipping reaction and an X-

50 [4,3-c]pyrazole-1,4-diyl)dinitramidate anion were prepared by acid-base reactions and fully character

51 ymer zwitterions in water, adhesive droplets are prepared by adding organic solvent to an aqueous pol

52 Ammoniacal cobalt(II) solutions were prepared by adding aqueous ammonia into a cobalt(II

53 Experimental samples of raw gelatine were prepared by adding porcine gelatine in a proportion

54 carbene] bearing a single monodentate ligand was prepared by addition of NaBH4 or BH3NH3 to the corre

55 The enzymatic cathode was prepared by adsorption of 2,2'-Azino-bis(3-ethylbenz

56 heets with preprogrammed topological defects are prepared by aligning liquid-crystal monomers within

57 The particles are prepared by an oil-in-water nanoemulsion technique w

58 It was prepared by an invited committee of international ex

59 The CNDs were prepared by an economic and eco-friendly one-step h

60 New cyanines were prepared by an efficient and practical route with s

61 cted with human immunodeficiency virus (HIV) were prepared by an expert panel of the HIV Medicine Ass

62 P)-based fluorescent artificial receptor has been prepared by anchoring a selective MIP for cocaine (

63 raphene foam with a 6.8 at% nitrogen content is prepared by annealing a freeze-dried graphene oxide f

64 Atomically flat, terraced H-Ge(111) was prepared by annealing in H2(g) at 850 degrees C.

65 ing was synthesized--a structure that cannot be prepared by any previously known method--and its plas

66 acyclic ring motif of the alkaloid neuvamine was prepared by applying the newly developed copper-cata

67 The herein proposed samplers were prepared by applying a hydrophilic-lipophilic balan

68 DBS samples [spiked or patient samples] were prepared by applying blood to Guthrie cards which w

69 lloys with a variable concentration of boron were prepared by arc-melting and investigated for their

70 s with enantiomeric excesses from 97 to >99% were prepared by asymmetric transfer hydrogenation of al

71 arms and a molecular spoked wheel (MSW) core were prepared by atom transfer radical polymerization (A

72 donors able to form IMHBs with the azo group is prepared by azo coupling.

73 Caterpillar track complexes can also be prepared by binding the hexapyridyl template inside t

74 The studies revealed that CBRs could be prepared by blending MSF and PS, and they could be ut

75 (11)C-UCB-J was prepared by C-(11)C-methylation of the 3-pyridyl tri

76 An adj-dicarbaporphyrin was prepared by carrying out a base-catalyzed MacDonald

77 100% [w/w]) and without plasticizer addition were prepared by casting.

78 NA polymerase and the associated nascent RNA are prepared by cell fractionation, avoiding immunopreci

79 of strain A and B hSOD1 aggregate seeds that were prepared by centrifugation through a density cushio

80 The designed CovCore proteins were prepared by chemical synthesis, and their structure

81 ifferent average surface densities of probes were prepared by coadsorbing probes with lateral spacers

82 In this work, synthetic POM was prepared by coating silica particles with commercial

83 e investigated surfaces with varying density are prepared by codeposition of 3-(aminopropyl)triethoxy

84 Fermented phenolic enriched-milk (fPEM) was prepared by combining PPEs with milk and fermented w

85 iculate colloidal aggregate food ingredients were prepared by complexing wheat flour, chickpea flour,

86 The nanocarrier is prepared by conjugating gold nanorod (GNR) with multi

87 serum albumin, and the plate-coating antigen was prepared by conjugating [Asp3]MC-RY to ovalbumin.

88 well-defined zerovalent tantalum complex to be prepared by conventional laboratory methods.

89 Zn (II) IIP was prepared by copolymerisation of methyl methacrylate

90 Compound 5b was prepared by coupling the carboxyl group of 3b and th

91 In this work, glycoconjugate prototypes were prepared by coupling S. suis type 2 CPS to tetanus

92 PEG-lactic acid (PEG-LA) nanocarriers were prepared by covalently attaching lactic acid to 8-a

93 Multi-functional phenolic emulsifiers were prepared by covalently coupling beta-Lactoglobulin

94 ways and/or the cellular 5' exonuclease Xrn1 were prepared by CRISPR-Cas9 gene editing.

95 A series of 16 novel representatives were prepared by Cu-catalyzed [3 + 2] cycloadditions of

96 edure for cheese powders: the blank material was prepared by cutting, grinding, freeze-drying and mil

97 -substituted with alkyl linked carbazole has been prepared by cyclomerization reaction of 4,5-bis(6-c

98 AdoRbl was prepared by de novo total synthesis involving both b

99 All complexes were prepared by decomposition of a diazoalkane precurso

100 The TeamChip is prepared by delivering genes into miniaturized three-

101 A nanocell is prepared by depositing a platinum nanoparticle at the

102 Subsequently, substituted salicylic acids were prepared by deprotection of the ester and amide gro

103 Complex 3 was prepared by deprotonation and oxidative homocoupling

104 s decorated with benzenesulfonamide moieties were prepared by derivatizing the amino groups of the de

105 rease from jack beans (Canavalia ensiformis) were prepared by desolvation and glutaraldehyde crosslin

106 Norbornenes with two ester substituents were prepared by Diels-Alder cycloadditions of cyclopent

107 Samples were prepared by dip-coating acrylic, cotton, nylon, and

108 The PE was prepared by direct writing onto the photo paper usin

109 ins containing 10 muM sulforhodamine B (SRB) was prepared by directional solvent-vapor penetration (S

110 The TM-ethyl cellulose nanoparticles were prepared by double emulsion method at different rat

111 The sensor was prepared by drop-casting a silk solution on a glassy

112 Photoconductive xerogels can be prepared by drying these gels.

113 SERS) active Ag nanoparticle aggregates have been prepared by drying aqueous mixtures of hydroxyethyl

114 f commercial unavailability, these standards were prepared by efficient fractionation of the original

115 Nanoelectrodes are prepared by electrochemical plating in a laser-pulle

116 -black TiO2 nanotube array (BNTA) electrodes are prepared by electrochemical self-doping.

117 The bioimprinted film was prepared by electrochemical entrapment of ds-DNA and

118 The MIP film was prepared by electrochemical polymerization of bis(bi

119 The RGO@PDA composite was prepared by electrochemical reduction of graphene ox

120 sed mixtures of 6-nm Cu and Ag nanoparticles were prepared by electrochemical reduction on electroche

121 notubes and nanowires while Ta2O5 nanofibers were prepared by electrospinning technique.

122 Nanoparticles are prepared by electrostatic self-assembly of cationic

123 double-layer of biopolymers (gelatin-pectin) were prepared by electrostatically depositing sugar beet

124 Islet grafts were prepared by embedding stable IDO-expressing fibrobl

125 crometer/nanoscale patterned polymer brushes are prepared by employing cucurbit[8]uril (CB[8]) as a s

126 ss, the polydimethylsiloxane (PDMS) membrane was prepared by employing water as solvent.

127 Hybrid raspberry-like colloids (HRCs) were prepared by employing cucurbit[8]uril (CB[8]) as a

128 The beta-hydroxyaminoaldehydes were prepared by enantioselective organocatalytic 1,4-ad

129 AB diblock copolymers were prepared by encapsulating a frozen solution of mono

130 cluding the lactone-annulated system 26, has been prepared by engaging derivatives of an enzymaticall

131 Cu with equi-axed and elongated grains which were prepared by equal channel angular pressing (ECAP) f

132 Four HBr solutions were prepared by evaporation/condensation in order to ob

133 es with 150 m(2) g(-1) specific surface area are prepared by exfoliation of crystalline KxMnO2 and su

134 Thus, HCG and HCNDG were prepared by exfoliation of graphite in the presence

135 analogues and fluorescently labeled variants were prepared by exploiting alkene metathesis reactions.

136 ted quartz crystal microbalance (QCM) sensor was prepared by fabricating a self-assembling monolayer

137 Ag NSs with varying size and shell thickness were prepared by fast chemical reduction of preformed Ag

138 For the other four organ groups, shell molds were prepared by FDM and cast with silica gel to simulat

139 (E)-Alkenylzinc iodides were prepared by Fe-catalyzed reductive coupling of term

140 the Saccharomyces cerevisiae yeast extract, was prepared by fermentation of such microorganisms at r

141 le polymer with exceptional size selectivity is prepared by fusing triptycene units together via a po

142 The arrays were prepared by glancing angle deposition method.

143 -dimethylpyrrolyl (Me2Pyr) and R = Me or Ph) was prepared by grafting bis-X substituted complexes [W(

144 Cells are prepared by growing in isotopic labeling medium for

145 with different levels of aggregated protein, were prepared by heating (5% protein, pH 7, 90 degrees C

146 g black mulberry (Morus nigra) extract (BME) were prepared by high pressure homogenization at 25,000

147 d by a single-layer of biopolymers (gelatin) were prepared by high pressure homogenization.

148 ning the protease inhibitor atazanavir (ATV) were prepared by high-pressure homogenization.

149 9beta-Methyl-19-nor-1alpha,25-(OH)2D3 was prepared by homogeneous hydrogenation with Wilkinson

150 he corresponding stannanes, which themselves were prepared by Hoppe-Beak deprotonation of ethyl 2,4,6

151 Samples were prepared by hot pressing at 120 degrees C to produc

152 organic synthesis, but these reagents cannot be prepared by hydroboration.

153 PMes2/B(C6F5)2 frustrated Lewis pair (FLP) 8 was prepared by hydroboration of Mes2P-(CH2)2CH horizont

154 e-bridged amine/borane frustrated Lewis pair was prepared by hydroboration of N-allyl-tetramethylpipe

155 =x</=1), containing B-site Ru(IV) and Ir(IV) is prepared by hydrothermal synthesis and used as a cata

156 CDs as fluorophore with average size 3-4nm were prepared by hydrothermal treatment of histidine.

157 Natural pigment-sensitized TiO2 sensor was prepared by immersing porous TiO2 films in an ethano

158 Antibodies were prepared by immunizing mice with empty, immature pa

159 The membranes have been prepared by in situ UV-initiator-induced polymeriza

160 The open tubular column was prepared by in-situ grafting polymerization of 3-chl

161 Chiral plasmonic films have been prepared by incorporating gold nanorods (NRs) in a

162 The vesicular systems were prepared by incorporating different polyethylene gl

163 ms of quinoa (Chenopodium quinoa, W.) starch were prepared by incorporating gold nanoparticles stabil

164 The sensors were prepared by incorporating two environmentally sensi

165 In addition, a dual PET/optical probe was prepared by incorporation of a near-infrared fluorop

166 Cold standards were prepared by incubating DOTA-conjugated peptides wit

167 g dynamical behaviour and exchange of matter are prepared by inhibiting coalescence to produce acoust

168 PDA vesicles were prepared by inkjet-printing, photopolymerized and c

169 fect perovskites (He2-x squarex)(CaZr)F6 can be prepared by inserting helium into CaZrF6 at high pres

170 These were prepared by insight gleaned from a broad use of mat

171 amin D3 compounds with an (5E)-configuration were prepared by iodine catalyzed isomerization.

172 The polymer network is prepared by irradiation of a twist cell filled with a

173 complexes with pendent Lewis acidic boranes were prepared by late-stage modification of an active hy

174 Triplet phenylphosphinidene was prepared by light-induced elimination of ethylene fr

175 Tellurobistocopherols 9-11 were prepared by lithiation of the corresponding bromoto

176 n yttrium-to-tantalum atomic fraction of 14% was prepared by magnetron sputtering.

177 es with externally fused five-membered rings are prepared by means of a key palladium-catalyzed cyclo

178 allyl-substituted heterocycles 14 could also be prepared by means of a palladium-catalyzed N-arylatio

179 entafluorosulfanyl SF5 functional groups has been prepared by means of the two-component cyclization

180 Cu2O NPs were prepared by means of a novel synthetic route based

181 Eleven formyl-containing BODIPY dyes were prepared by means of either the Liebeskind-Srogl cr

182 -(alkoxycarbonyl)alkyl-hydantoin derivatives were prepared by mechanochemistry from amino esters or d

183 er CUK-1 with one-dimensional pore structure was prepared by microwave synthesis in water.

184 Prior to analysis, green coffee samples were prepared by microwave digestion, while infusions we

185 The final gel is prepared by mixing aqueous solutions of the two precu

186 The precursor solution is prepared by mixing water-soluble polymer(s) with salt

187 PG-QC formulations were prepared by mixing a QC ethanol solution with a PG

188 The injectable and biodegradable hydrogels were prepared by mixing the polymer solutions containing

189 The dialyzer is prepared by modification of commercially available di

190 A citrate-selective sensor was prepared by modification of a PVC membrane with modi

191 high-mannose, hybrid and complex types) that were prepared by modular chemo-enzymatic methods to dete

192 R2) and two distillate (D1 and D2) fractions were prepared by molecular distillation.

193 Nanoliposomal omega3 PUFAs was prepared by Mozafari method, and their application i

194 ptidase and the 4,3-endopeptidase activities were prepared by multistep synthesis, and their turnover

195 vant porous silicon (PSi)-based nanovaccines are prepared by nanoprecipitation in a glass capillary m

196 PLGA-b-PEG-NH2 and PLGA-b-mPEG NPs were prepared by nanoprecipitation method.

197 In this work, an electrode was prepared by nucleating and growing a single Pt NP on

198 The Cu-NGr composite was prepared by one pot synthesis from a mixture of grap

199 Polyglycidol-based nanohydrogels (nHGs) have been prepared by optimizing the use of liposome master t

200 ted two-dimensional aromatic frameworks have been prepared by overcrowding the nodes with bulky and r

201 uted (hetero)aryl rings in the para-position were prepared by palladium nanoparticle-catalyzed Suzuki

202 These compartmentalized single-chain objects were prepared by performing successive cross-linking rea

203 Omniphobic fluorogel elastomers were prepared by photocuring perfluorinated acrylates an

204 ymer mounts for single crystal analysis have been prepared by photopolymerization using digital light

205 Solid state sensing materials were prepared by physically embedding the fluoroionophor

206 s zeolites with controlled acidic properties were prepared by postdealumination process with hydrochl

207 These catalysts either can be prepared by pretreatment of the aqua-coordinated poly

208 asma, and lysed whole blood samples (50 muL) were prepared by protein precipitation followed by diges

209 el heterogeneous cobalt-based catalysts have been prepared by pyrolysis of cobalt complexes with nitr

210 They were prepared by quantitative N,N-dichlorination of (R)-

211 The films are prepared by radical polymerization of 4-vinylaniline

212 ials for treating lymphoma and myelofibrosis-was prepared by RCM carried out at a substrate concentra

213 demonstrate that this class of compounds can be prepared by reacting fluorophores such as 7-hydroxy-4

214 fined to a cis-divacant octahedral geometry, was prepared by reduction of N3Ad by the Fe(II) precurso

215 Novel azo-bis-ebselen compounds 7 were prepared by reduction of 7-nitro-2-aryl-1,2-benziso

216 The title natural products 2-7 have been prepared by reductive cyclization of the relevant 2

217 romutilin and (+)-11,12-di-epi-pleuromutilin were prepared by related sequences.

218 DAIP variants were prepared by replacing four of five glutamines for a

219 ization, 14- and 15-membered macrocyclic PIs were prepared by ring-closing metathesis of the correspo

220 An additional 432 contrived specimens were prepared by seeding well-characterized carbapenem-s

221 Alternatively, 5 is prepared by selective mono-cyclopropanation of dibenz

222 has allowed access to analogues that cannot be prepared by semisynthesis from natural ingenol.

223 e report that the thermoneutral catalyst can be prepared by simple doping of a platinum atom into a m

224 RGO-MWCNT-Pt nanocomposite has been prepared by simple solution based approach and its

225 Various types of coatings could be prepared by simply changing the functional vinyl mono

226 context, magnetic tri-enzyme nanobiocatalyst was prepared by simultaneously co-immobilizing three enz

227 The modified starches were prepared by soaking starch in 0 (water), 1, 3, 5, 1

228 omplexes on ultraclean freestanding graphene were prepared by soft-landing electrospray ion beam depo

229 terials with immobilized ionic liquids (ILs) were prepared by sol-gel technology and evaluated as sol

230 When unsalted Jameed was prepared by solar or freeze drying, additional major

231 -1,3-propanediol and 1,20-eicosanedioic acid were prepared by solution polycondensation using the cor

232 The co-crystals were prepared by solvent evaporation and mechanochemical

233 Positive controls run with each batch were prepared by spiking a pooled BAL fluid specimen wit

234 of Klaui-type tripodal oxygen donor ligands were prepared by spin-casting solutions onto glass subst

235 te of a murine ovarian cancer cell line, ID8 was prepared by spray drying.

236 rs, and overcoated discrete Sb-SnO2 islands, were prepared by spray pyrolysis.

237 Pore-spanning lipid membranes were prepared by spreading giant 1,2-dioleoyl-sn-glycero

238 he end of treatment, acute cerebellar slices were prepared by standard means.

239 Boron and Li enolates were prepared by standard methods, but Ti(IV) enolates w

240 HD (v = 1, j = 2) was prepared by Stark-induced adiabatic Raman passage, w

241 In Drosophila male germline stem cells, ACD is prepared by stereotypical centrosome positioning.

242 Well-defined, stable cationic species can be prepared by stoichiometric substitution of one chloro

243 mine donors and a cyanoacrylic acid acceptor are prepared by stoichiometrically controlled Stille or

244 The inexpensive CQDs can be prepared by straightforward thermolysis of citric aci

245 els based on Zn10 L15 pentagonal prisms have been prepared by subcomponent self-assembly.

246 Temperature-adjusting asphalt mixture was prepared by substituting the fine aggregates with PE

247 work, the edge-plane carbon stationary phase is prepared by surface-directed liquid crystal assembly.

248 The MIPs were prepared by surface-initiated reversible addition-f

249 he boron-rich benzene and pyrene derivatives are prepared by Suzuki conditions using both microwave a

250 ment of six peri-arranged naphthalene units, were prepared by Suzuki cross coupling and subsequent ox

251 Magnetic hydrogels could be prepared by swelling the PEO domains of the cross-lin

252 of the transient oxocarbenium species, which were prepared by synthesis.

253 A library of siRNA-loaded LPNs was prepared by systematically varying the nitrogen-to-p

254 Mutants defective in protein expression were prepared by TargeTron insertion mutagenesis.

255 ting of interlocked macrocyclic rings - have been prepared by templation strategies for some thirty y

256 The nanoporous thread electrodes are prepared by the activation of commercial carbon fibe

257 Graphene powders are prepared by the exfoliation of graphite or the reduc

258 ts show that a wide range of ynol ethers can be prepared by the same methodology and that the same pr

259 yl aryl tetrafluoro-lambda(6) -sulfanes have been prepared by the direct addition of readily accessib

260 This guideline has been prepared by the European Academy of Allergy and Cli

261 henylborane)amide, Cs[H2NB2(C6F5)6] (1), has been prepared by the reaction of sodium salt and CsF in

262 ts with chronic urticaria and angioedema has been prepared by the Standards of Care Committee of the

263 Coffee is prepared by the extraction of a complex array of orga

264 minoborohydride (ClMg(+)[H3B-NMe2](-), MgAB) is prepared by the reaction of dimethylamine-borane with

265 This material is prepared by the vacuum carbonization of a zinc-based

266 a supercapacitor/biofuel cell hybrid device was prepared by the immobilisation of redox enzymes with

267 A new class of fluorinated lactones was prepared by the intramolecular fluorocyclizations of

268 This guideline was prepared by the Standards of Care Committee (SOCC) o

269 eneral formula [InxGa1-x(O2C2H4)0.5(hfipbb)] were prepared by the combination of Ga and In.

270 and temperature), solid lipid nanoparticles were prepared by the dilution of water in oil (w/o) micr

271 icrospheres encapsulating ~5% w/w leuprolide were prepared by the double emulsion-solvent evaporation

272 ations with 17.7, 39.6 and 39.1mg/g of rutin were prepared by the extrusion process.

273 Solid inclusion complexes were prepared by the freeze-drying method and the encaps

274 Bromoporphyrins were prepared by the metal-mediated self-condensation of

275 These high-valent oxidants were prepared by the one-electron oxidation of their Ni(

276 oaded polylactic-co-glycolic acid (PLGA) NPs were prepared by the same method.

277 Superextended tetrathiafulvalene compounds were prepared by the substitution of gem-dichlorovinylen

278 the basis of integrated circuit technology, is prepared by thermal oxidation followed by high temper

279 s connected by benzene-tricarboxylates (BTC) is prepared by thermoinduced solid transformation of a d

280 In present study, nanoliposomes were prepared by thin hydration method with different co

281 rming ring closure, and gilbertine could not be prepared by this route.

282 We used glycosylated Ser-CCL1 that had been prepared by total chemical synthesis as a homogeneo

283 l-allo-ShK and d-allo-ShK polypeptide chains were prepared by total chemical synthesis.

284 oute has the same characteristics as when it is prepared by traditional solid-state synthesis.

285 [(Ph3P)7Cu7H6](+) can also be prepared by treating (Ph3P)6Cu6H6 with [Cu(CH3CN)4](+

286 [(Ph3P)6Cu6H5](+) can also be prepared by treating (Ph3P)6Cu6H6 with MeOTf.

287 Nano-engineered MSCs were prepared by treating human MSCs with drug-loaded po

288 Diversely substituted anilines are prepared by treatment of functionalized arylboronic

289 rature-stable crystalline 2H-phosphirene (1) was prepared by treatment of an electrophilic diamidocar

290 c hydrolysates of olive seed protein isolate were prepared by treatment with five different proteases

291 Smooth-hound viscera hydrolysates (SHVHs) were prepared by treatment with Neutrase (SHVH-N) and Pu

292 -2''-yl)-2-(pyrid-2'-yl)quinoline (ppq), has been prepared by two sequential Friedlander condensation

293 erivatives with varying degrees of oxidation were prepared by two-phase terpene synthesis.

294 Polymer-shelled vesicles are prepared by using cyclodextrin vesicles as supramole

295 orated with uniformly dispersed active sites are prepared by using polyaniline as a graphene precurso

296 Greatly improved zeolite membranes were prepared by using high-aspect-ratio zeolite seeds.

297 ga-3 oil, ranging from 10 to 40% (w/w), have been prepared by vacuum drying, freeze drying or spray g

298 Interlaced carbon nanotube electrodes (ICE) were prepared by vacuum filtering a well-dispersed carbo

299 films on two different STO substrates, which are prepared by water-leaching and buffered hydrofluoric

300 differing in regio- and stereochemistry has been prepared by way of a multistep synthesis based on c