ライフサイエンスコーパス: gold

1 ting, and the surface was electroplated with gold.

2 of the d states and relativistic effects in gold.

3 tory concentration demonstrated platinum and gold against Enterococcus faecium, platinum against Kleb

4 Here we use ozone-activated silver-gold alloys in the form of nanoporous gold as a case stu

5 QTAIM) and the isolobal relationship between gold and hydrogen provide support for the description of

6 Gold and indium tin oxide electrodes were characterized

7 ully understood such as QD interactions with gold and other metal nanoparticles along with carbon all

8 Platinum, gold and palladium showed the greatest antimicrobial eff

9 obes, we measured the thermal conductance of gold and platinum metallic wires down to single-atom jun

10 ntres of production of rare elements such as gold and platinum.

11 ttractive as a low-cost alternative to their gold and silver analogues for numerous applications, alt

12 ing in situ electron microscopy, we show how gold and silver nanocrystals nucleate from supersaturate

13 lates to host metallic nanoparticles such as gold and silver.

14 The structure of gold and the real electrode surface area can be controll

15 , semiconducting thienoazacoronene (EH-TAC), gold, and also MoS2 on PS.

16 ere infused with a retrograde tracer, Fluoro-Gold, and tested for affiliation and aggression toward a

17 he Apt-GMNPs-GO-L-AgNPs were introduced to a gold anodic BPE array, the individual electrodes were su

18 silver-gold alloys in the form of nanoporous gold as a case study to demonstrate the dynamic behaviou

19 June Gold) at the commercial harvest (CH) or tree-ripe (TR) s

20 oms, two oxygen atoms preferentially share a gold atom with a bond distance of 0.194-0.196 nm and add

21 The aptamer self-assemble onto the gold atomic clusters makes Apt/AuAC/Au an excellent plat

22 m and additionally bind to two other surface gold atoms with a larger bond distance of 0.203-0.213 nm

23 on surfaces with coordinatively unsaturated gold atoms, two oxygen atoms preferentially share a gold

24 We synthesized layered gold (Au) clusters on a molybdenum carbide (alpha-MoC) s

25 h of surface modification of ITO anodes with gold (Au) is demonstrated, to enhance direct microbial b

26 g anticortisol antibody (anti-CAB) on top of gold (Au) microelectrodes using 3,3'-dithiodipropionic a

27 Plasmonic gold (Au) nanotriangular arrays, functionalized with a n

28 Gold (Au) on ceria-zirconia is one of the most active ca

29 We discuss the chemistry of the carbene-gold bond and report on advantages of this new ligand.

30 hlight recent advancement in functionalizing gold by N-heterocyclic carbenes (NHCs), a promising alte

31 o tailor the surface structure of nanoporous gold by surface relaxation via electrochemical redox cyc

32 100} faceted internal surfaces of nanoporous gold can be realized in a controllable manner by optimiz

33 A range of different labels (colloidal gold, carbon black and magnetic nanoparticles) was compa

34 atory insertion of carbon-based species into gold-carbon bonds.

35 operating conditions of a recently validated gold catalyst for acetylene hydrochlorination.

36 ne ligands are developed in the context of a gold catalyzed enantioselective tandem [3,3]-sigmatropic

37 The intramolecular gold-catalyzed arylation of arenes by aryl-trimethylsila

38 portant mycotoxin, was captured using an SPR gold chip containing an antifouling layer and monoclonal

39 exfoliation of graphite and the reduction of gold chloride occurs to produce highly crystalline G-Au

40 rodes working area using L(+) ascorbic acid, gold chroloauric acid and poly-l-lysine (PLL) through mo

41 scattering experiments on thiolate-protected gold clusters (Au130(SR)50, Au144(SR)60, and Au500(SR)12

42 The distinctive selectivity offered by these gold clusters originates from a fine interplay between t

43 The new method utilizes gold coated magnetic nanoparticles that are functionaliz

44 iral self-assembled molecular monolayer on a gold-coated ferromagnetic layer with perpendicular magne

45 ed with high porosity of the thin nanoporous gold coating enables capturing the analyte in pico- to n

46 The results for BSA on gold colloid nanoparticles can be modeled in terms of La

47 ion of bovine serum albumin (BSA) to aqueous gold colloids can be quantified with molecular resolutio

48 atom coupling and water-mediated metastable gold complexes.

49 well-precedented for most transition metals, gold constitutes a notable exception, with virtually no

50 In a 10-week stability study, neither the gold content nor the radiopacity of the infused PPDO sut

51 bal initiative for Obstructive Lung Disease (GOLD) COPD who had been clinically stable for 6 months,

52 icles, MnO in this case, bound directly to a gold current collector via short conducting linkages eli

53 r molecular recognition elements (MREs) onto gold disk electrodes (GDEs).

54 voltammetry (SW-ASV) conducted at both solid gold electrode (SGE) and a gold nanoparticle-modified gl

55 rix was then integrated over comb structured gold electrode array based sensor chip.

56 t@AgNCs) were synthesized and immobilized on gold electrode for impedimetric detection of Cyt c over

57 NA molecules are firstly self-assembled onto gold electrode surface for the specific recognition of t

58 Antibodies were immobilized on the gold electrode surface in an optimal orientation by prot

59 s immobilized on both a large area and micro gold electrode via the tethering interaction of a modifi

60 The sensing element is a gold electrode with molecular imprinted polymers (MIPs)

61 was electrodeposited as redox indicator on a gold electrode, which was then functionalized with an el

62 ential for electrocatalytic CO2 reduction at gold electrodes is due to the formation of the catalytic

63 In the present work, gold electrodes were modified using a redox-active layer

64 a self-assembly of thiol-modified aptamer on gold electrodes.

65 g carbomethoxy groups were self-assembled on gold electrodes.

66 ectrocatalyst [Mo(bpy)(CO)4] at platinum and gold electrodes.

67 th a noncontinuous, nanostructured plasmonic gold film, enabling quantitative fluorescent detection o

68 The synthetic gold finger peptides were derived from the C-terminus of

69 nanowires electrodeposited epitaxially on a gold foil also showed flexibility, with the nanowires in

70 A 28-nanometer-thick gold foil with a sheet resistance of 7 ohms per square s

71 was utilised for the development of graphene-gold (G-Au) nanocomposite.

72 these steps might be associated with strong gold-gold atom coupling and water-mediated metastable go

73 have been prepared from addition of a parent gold hydride to a bent d(10) copper(I) fragment.

74 lary ligands in the synthesis of luminescent gold(I) chalcogenide clusters and this approach allows f

75 ication of cyclic trinuclear trigonal-planar gold(I) complexes are found to sensitize ground-state Cu

76 ombination of N-heterocyclic carbene-ligated gold(I) trimethylsilylchalcogenolates [(IPr)AuESiMe3] an

77 as sensor equipped with the resulting porous gold IDEs featured a sensitivity to diethyl ethylphospho

78 4E could specifically nucleate Au precursor (Gold (III) chloride), which enable the efficient growth

79 for functionalizing and stabilizing metallic gold in the form of planar gold surfaces and gold nanopa

80 d ocular tuberculosis (TB) by QuantiFERON-TB Gold In-Tube (QFT) tests using latent class analysis mod

81 berculin skin test (TST), the Quantiferon-TB Gold in-tube (QFT-GIT), and the T-SPOT.TB (T-SPOT).

82 Using this platform, we studied gold junctions with prototypical molecules (Au-biphenyl-

83 surface plasmon polaritons with a deposited gold layer, which exhibit high bulk refractive index sen

84 shed by coating the DFH-4T films with a thin gold layer.

85 attach probe molecules endowed by the coated gold layer.

86 uctural investigations revealed three atomic gold layers over the intermetallic core to be sufficient

87 re identified by UCP-LFA and 78%(n = 133) by Gold-LFA.

88 ual immunogold OnSite Leprosy Ab Rapid test [Gold-LFA] and the quantitative, luminescent up-convertin

89 In addition, the first examples of the gold mesoionic carbene mediated [2+2+2] cycloaddition of

90 ngle-stranded DNA probe oligomers on cleaned gold microelectrodes.

91 isting of people who worked in South African gold mines or lived in associated labor-sending communit

92 The visual readout was achieved when the gold-modified amplicons were captured by the specific an

93 es in myelin integrity, aurophosphate (Black Gold) myelin staining was performed on mPFC sections.

94 ved in compact, robust, and easily assembled gold nano-gap resonators at room temperature.

95 Colloidal gold nano-particles (GNP) were prepared and used as labe

96 nanomaterials; Exfoliated Graphene Oxide and Gold Nano-Urchins for modification of the screen-printed

97 nctionalized with pyrrole moiety, in between gold nanoarrays.

98 is melted due to the photothermal effect of gold nanocages, leading to the release and decomposition

99 ping of a platinum atom into a molecule-like gold nanocluster.

100 second-pulsed laser irradiation and magnetic gold nanoclusters (MGNCs) as the etching agents is descr

101 hors track the seeded growth of atom-precise gold nanoclusters using mass spectrometry, revealing tha

102 y large, 2.2 nm diameter, thiolate protected gold nanocrystal characterized by single crystal X-ray c

103 It is also the smallest gold nanocrystal to exhibit metallic behavior, with a su

104 anorings were compared to the 6 x 6 recessed gold nanodiscs arrays.

105 R) and molecular imprinted polymers (MIP) at gold nanodisks as an alternative to sensorial analysis.

106 Our plasmonic microarray is composed of gold nanohole sensor arrays that exhibit the extraordina

107 Quantum dots-Gold nanoparticle (QDs-GNP) based FRET probes involving

108 ct denatured glutathione peptides, utilizing gold nanoparticle aggregation via 3-Aminopropyltreithoxy

109 The peptide, gold nanoparticle and aminosilane solution was then char

110 The rapid growth of gold nanoparticle applications in laser therapeutics and

111 Our SERRS nanoparticles consist of a 60-nm gold nanoparticle core that is encapsulated in a 15-nm-t

112 ciently overcome the quenching effect of the gold nanoparticle even at close proximity.

113 ter-scale single-crystal body-centered cubic gold nanoparticle superlattices, with dye molecules coup

114 ol monolayers in the absence and presence of gold nanoparticle to enhance sensor stability and sensit

115 ages and resulting absorbance spectra of the gold nanoparticle, glutathione, and aminosilane complex

116 The activity of a gold nanoparticle-based catalyst can be reversibly up- a

117 ted at both solid gold electrode (SGE) and a gold nanoparticle-modified glassy carbon electrode (AuNP

118 of patches of cell-adhesive molecules onto a gold-nanoparticle-patterned indium tin oxide electrode.

119 ence emission can be effectively quenched by gold nanoparticles (Au NPs) via fluorescence resonance e

120 a continuous wave (CW) laser excitation and gold nanoparticles (Au-NPs) to induce known thermal deco

121 ancement of a composite material composed of gold nanoparticles (AuNPs) embedded in a bottom-up synth

122 n this study, we show that electromagnetized gold nanoparticles (AuNPs) in the presence of specific E

123 ng mode of carboxylate-containing ligands to gold nanoparticles (AuNPs) is crucial to understand thei

124 antum dots (NAC-CdAgTe QDs) and dodecahedral gold nanoparticles (AuNPs) stabilized by 1-(10-bromodecy

125 f the localized surface plasmon resonance of gold nanoparticles (AuNPs) synthesized in situ in algina

126 ecular beacon (MB) probe was conjugated with gold nanoparticles (AuNPs) to create an integrated, dual

127 nhanced Raman Scattering (SERS) supported by gold nanoparticles (AuNPs) was applied to detect and qua

128 this study, silver nanoparticles (AgNPs) and gold nanoparticles (AuNPs) were used to determine the bi

129 pectra were obtained using reporter-modified gold nanoparticles (AuNPs).

130 ment of radiopaque PPDO IVC filters based on gold nanoparticles (AuNPs).

131 ovalent assembly of concanavalin A (ConA) on gold nanoparticles (AuNPs).

132 se (FAO) immobilized nitrogen-doped graphene/gold nanoparticles (AuNPs)/fluorine doped tin oxide (FTO

133 54T-CUA was the introduction of chitosan and gold nanoparticles (CS/GNPs) to enhance its catalytic ac

134 distinct monolayer double-stranded (ds) DNA-gold nanoparticles (DNA-AuNPs).

135 Colorimetric assays based on gold nanoparticles (GNPs) are of considerable interest f

136 Gold nanoparticles (GNPs) have been demonstrated as effe

137 ismatched base pairs and nanomaterials cover gold nanoparticles (GNPs), quantum dots (QDs), carbon na

138 acokinetics and clearance of renal clearable gold nanoparticles (GS-AuNPs) are strongly dose-dependen

139 using antibody fragments (Fab) conjugated to gold nanoparticles (immunogold) to map the available epi

140 gold in the form of planar gold surfaces and gold nanoparticles (NPs).

141 e aggregation of streptavidin-functionalized gold nanoparticles (st-AuNPs) to produce visually recogn

142 show that, for each of a group of interfaced gold nanoparticles and microscale carbon particles, redu

143 somes (MLs), containing hydrophobic magnetic-gold nanoparticles and the long wavelength fluorophore c

144 In the early stages of endocytosis, fPlas-gold nanoparticles appear mostly as single particles and

145 Followed by the introduction of gold nanoparticles coated magnetic microbeads (Au NPs-MB

146 accomplished by functionalizing the graphene-gold nanoparticles composite modified carbon electrode w

147 ocalised surface plasmon resonance (LSPR) of gold nanoparticles deposited on a glass plate and on a l

148 ment on paper-based carbon platforms through gold nanoparticles electrogenerated from small volumes o

149 rom programmable atom equivalents comprising gold nanoparticles functionalized with DNA, are used as

150 noconjugates comprising hairpin-DNA-modified gold nanoparticles is presented.

151 Anisotropy in silver and gold nanoparticles offers the possibility to tailor thei

152 alization of LYS in droplets also comprising gold nanoparticles provided enhanced luminescence.

153 rement conditions and therefore captures all gold nanoparticles regardless of the presence of aptamer

154 d nanoparticles, and stable oligoclusters of gold nanoparticles show that permeation into the lamina

155 he gold surface was modified with ultrasmall gold nanoparticles stabilized with glutathione.

156 s compared as detection probe in LFIA, being gold nanoparticles that showed better results.

157 Antibody probes were conjugated with gold nanoparticles that were sputtered on the BP through

158 decoration of either faces of the sheet with gold nanoparticles through sequence-specific DNA hybridi

159 dissociation of aptamers from the surface of gold nanoparticles upon recognition of small targets.

160 The films are formed from DNA-grafted gold nanoparticles using a layer-by-layer deposition pro

161 -targeted format, and anti-CD63 labeled with gold nanoparticles was used as detection probe.

162 We functionalized the gold nanoparticles with a thiolated aptamer to achieve t

163 ting gold-tagged albumin, negatively charged gold nanoparticles, and stable oligoclusters of gold nan

164 oic acid, in the presence of a dispersion of gold nanoparticles, onto a multi-walled carbon nanotubes

165 ssembled into crystalline superlattices with gold nanoparticles, we find that the distribution of DNA

166 core particle with a multitude of associated gold nanoparticles, we found that the structure transfor

167 , which were used to mediate the assembly of gold nanoparticles.

168 on the electrode surface for the assembly of gold nanoparticles.

169 ting crystal violet, methylene blue and 2 nm gold nanoparticles.

170 imetry and absorption spectrometry of single gold nanoparticles.

171 and visualized with anti-FAM antibody-coated gold nanoparticles.

172 ctification behaviors are observed using the gold nanopore, potentially enabling new capabilities in

173 rface-enhanced Raman spectroscopy (SERS) and gold nanoprobes at single-cell resolution.

174 onses from periodic 6 x 6 arrays of recessed gold nanorings were compared to the 6 x 6 recessed gold

175 Transferrin-coated endocytic gold nanorod cargoes initially undergo active rotational

176 Gold nanorods (AuNRs) were first loaded into PLTs by ele

177 Gold nanorods (AuNRs)-assisted plasmonic photothermal th

178 hotothermal therapy of anti-CD11b Abs-linked gold nanorods (GNRs-CD11b) are combined to treat the car

179 gulating the chiral directional "bonding" of gold nanorods decorated by the surface adapter.

180 eatures the arrangement of spatially varying gold nanorods on a flexible, conformable epoxy resist me

181 (MLV) via 805 nm femtosecond pulses through gold nanorods whose localized surface plasmon resonance

182 on both endogenous (melanin) and exogenous (gold nanorods) absorbers.

183 strated the catalytic potential of palladium-gold nanorods, which can be employed as nanozyme for dev

184 d N-dodecyl imidazole as functional monomer, gold nanoroots (AuNRs) were fabricated and characterized

185 Raman tag functionalized gold nanosensors yielded an approach for the tracking of

186 zed in the plasmonic hot spots of individual gold nanosphere oligomers, corroborated by open-shell de

187 f immune-checkpoint inhibition and plasmonic gold nanostar (GNS)-mediated photothermal therapy, we we

188 olayer of near-infrared active silica-coated gold nanostars (GNS) decorated by silver nanoparticles (

189 t dynamic compression to synthesize extended gold nanostructures, such as nanorods, nanowires and nan

190 ciated electrochemical processes of a single gold nanowire with an optical imaging technique.

191 a scanning tunnelling microscope tip with a gold nanowire.

192 Palladium-gold nanozyme shows excellent peroxidase mimetic activit

193 ts represent a paradigm shift in anisotropic gold NP synthesis.

194 ared that consists of a dealloyed nanoporous gold (NPG) supported glucose dehydrogenase (GDH) bioanod

195 mg.L(-1) of negatively or positively charged gold NPs ( approximately 12 nm) in gels.

196 nylpyridine) (PEO-b-P4VP), which directs the gold NPs (AuNPs) to form AuNP frames.

197 The formation of hybrid silicon-gold NPs as a result of the laser action on a mixed coll

198 Our ab initio calculations on gold nucleation suggest that these steps might be associ

199 Hydrophobic self-assembled monolayers on gold or silicon dioxide were used to harvest conditionin

200 mically inhomogeneous surfaces comprising of gold, palladium and nickel were generated on copper subs

201 nic coupling between the spatially separated gold particles mediated by the connecting silver particl

202 erformed using monodisperse 5, 50 and 400 nm gold particles supported on silica with liquid-phase hyd

203 rgy of the silver island exceeds that of the gold particles, only quasi-occupation of the silver tran

204 Three gold-plated pins of the standard connection are employed

205 ng the greatest deviation; the flexible hard gold platform achieved a sensitivity 4.6mV/pH and 49.2mV

206 he traditional electrodes, such as carbon or gold/platinum, are costly and difficult to microfabricat

207 tification and evaluation of nanotoxicity of gold probes.

208 GOLD provides a seamless interface with the Integrated M

209 viously associated with the mid-19th century Gold Rush now coincide with early-20th century industria

210 0.4 atom% and 5 atom%) is mapped within the gold samples.

211 h a specific study of 5-10 mm thick natural gold samples.

212 ll carbon nanotubes (MWCNT) was deposited on gold screen-printed electrode (AuSPE), and afterwards mo

213 partly hybridizes with capture probe on the gold sensing chip and the unpaired fragment of target DN

214 oxybetaine methacrylamide)] grafted from the gold sensor surface and post modified with hepatitis B s

215 Imax/Imin are dependent on the presence of a gold shell on the UCNP.

216 analyte through the well-spread nanofeatured gold skin.

217 e was controlled by the concentration of the gold source.

218 The gold-sputtered paper electrode is disposable and easily

219 (456 [41%] of the group), particularly among GOLD stages 3 and 4 patients (256 [56%] of 456).

220 ing using (99m)Tc-duramycin with the current gold standard (18)F-FDG for treatment response evaluatio

221 valuate this method both by comparison to EM gold standard annotated data and by examining its capaci

222 aluated through the concept annotations on a gold standard corpus and also by document retrieval on a

223 On four benchmark datasets taken from a gold standard data, iDTI-ESBoost outperforms the state-o

224 ed for model learning with sparse regulatory gold standard data.

225 Since the current gold standard for bacteremia diagnosis is based on conve

226 The gold standard for classifying ICU admission was an elect

227 ar magnetic resonance imaging has become the gold standard for evaluating myocardial function, volume

228 Canines remain the gold standard for explosives detection in many situation

229 However, a gold standard for measuring CA is not currently availabl

230 The current gold standard for measuring clinical disease progression

231 periprosthetic tissue samples is the current gold standard for microbiological diagnosis of prostheti

232 In contrast, EM remains the gold standard for reliable identification of a synapse,

233 The current gold standard for the diagnosis of bladder cancer is cys

234 Mastectomy was once the gold standard for the treatment of DCIS; however, breast

235 ne grafting, which is considered the current gold standard for the treatment of low weight bearing bo

236 Pancreas transplantation remains the gold standard for treatment for type I diabetes providin

237 studies have benchmarked these tools against gold standard gene expression sets, few have evaluated t

238 Using gold standard genomic datasets and simulated data, we ar

239 While Abraxane(R) is now considered a gold standard in chemotherapy, its 21% response rate lea

240 y and reproducibility and compared it to the gold standard in the field, trypsin.

241 assification performance, and the diagnostic gold standard is the clinical evaluation made by a movem

242 ght or obese children by using the imperfect gold standard methodology.

243 erstand variability in the absence of a true gold standard metric.

244 patients with systolic dysfunction using the gold standard of cardiovascular magnetic resonance.

245 cross-sectional OCTA approaches that of the gold standard of FA with OCT, and it is better than en f

246 specificity of CNV detection compared to the gold standard of fluorescein angiography (FA) and OCT wa

247 Quantitative PCR (qPCR) has become the gold standard technique to measure cDNA and gDNA levels

248 The lack of gold standard tests jeopardizes accurate diagnosis and t

249 rding to six classifications was used as the gold standard to compute area under the receiver operati

250 This assay represents the gold standard to measure tumour initiation potential in

251 The periodontal probe is the gold standard tool for periodontal examinations, includi

252 Gold standard transthoracic echocardiography was perform

253 Interestingly, the gold standard treatment of the defect site with autologo

254 varied considerably, with concordance with a gold standard varying from 9% to 68%.

255 ed high specificity and correlated with the "gold standard" GPC3-immunohistochemistry.

256 Traditional techniques are the "gold standard" in fungal detection which relies on sympt

257 icroscopy, often cumbersome, remains as the 'gold standard' for dispersion characterisation.

258 eins in our dataset, the SP175 dataset, the 'gold standard' set obtained from the Protein Circular Di

259 Finally, the acoustic aPTT assay is the ''gold standard'' for a dose administration of the new ora

260 The current gold standard, culture-based diagnostics, can provide cl

261 r evaluating PA methods independently of any gold standard, either established or assumed.

262 perienced surgeon's visual assessment as the gold standard, LSCI can be used to distinguish between w

263 rgent solutions and no consensus exists on a gold standard, or which scoring scheme should be used to

264 Using BMD as the gold standard, our genotypic resistance prediction appro

265 s, treating the forced-choice format as the "gold standard," ranged from 38.1% (current hookah use) t

266 st contrast medium-enhanced CT or MRI as the gold standard.

267 Clinical diagnosis was used as gold standard.

268 Blood culture is the gold-standard diagnostic test, but is expensive, slow, a

269 iaturize the concept of affinity pulldown, a gold-standard in vitro PPI interrogation technique, to p

270 Values were standardized to the gold-standard laboratory method.

271 ity or secretion as measured with the use of gold-standard methods.

272 ween the two groups was $648 ($87,476 in the gold-standard monitoring group vs. $86,829 in the real-l

273 The biosensor is compatible with "gold-standard" adult mosquito field-collection protocols

274 nes were drawn on a T2-weighted (T2W) image 'gold-standard' volume and on an ADC image volume derived

275 readily interpretable answers, and use true gold standards for development.

276 ed resistance mechanisms, and the absence of gold standards in many situations.

277 on of SECM with cyclic voltammetry (CV) at a gold substrate reveals that the electrodeposition of mag

278 spin-electron interactions at this molecule-gold substrate separation if the graphene nanoribbons ar

279 art of organosulfur ligands, we describe the gold-sulfur bond formation and the nature of the resulti

280 ances in magnetic molecules separated from a gold surface by graphene nanoribbons in vertically stack

281 Immobilization was achieved on a gold surface electrode following a bottom-up approach th

282 and enhance electron transfer parameters the gold surface was modified with ultrasmall gold nanoparti

283 To prevent non-specific binding the gold surface was treated with 3% BSA before detection.

284 ts show that Na(+) ions are present near the gold surface, indicating that carboxylate binding occurs

285 bilizing metallic gold in the form of planar gold surfaces and gold nanoparticles (NPs).

286 he vesicles on silicon dioxide, titania, and gold surfaces, and the differences in adsorption were fu

287 tforms rely on thiol groups to tether DNA to gold surfaces, but this method is hindered by a lack of

288 bility to interact with and adsorb onto bare gold surfaces.

289 dneys fixed seconds to hours after injecting gold-tagged albumin, negatively charged gold nanoparticl

290 page, which is energetically less costly for gold than for platinum and explains the propensity of go

291 Uniquely, for such a material, this gold-thiolate can be transformed into a wire-like conduc

292 for platinum and explains the propensity of gold to facilitate C-C bond formation.

293 Yet, the complementary reactivity of gold to numerous other transition metals would offer new

294 In this study, we introduced (gold triangular nanoprism core)/(polyaniline shell) nano

295 ecifically, using the prototypical system of gold triangular nanoprisms, we show that colloidal self-

296 considerable debate over the active form of gold under operating conditions of a recently validated

297 ible and transparent foils of single-crystal gold using silicon as a template.

298 unctionalization process to characterize the gold WE surface properties.

299 i-human IL-10 were electroaddressed onto the gold WEs through functionalization with 4-carboxymethyl

300 the herbal "incense" product "AK-47 24 Karat Gold," which was implicated in the outbreak.