ライフサイエンスコーパス: dioxide

1 itation, that is, heat treatment with sulfur dioxide.

2 ymatically converted into ammonia and carbon dioxide.

3 ermediate occurs to give ethylene and carbon dioxide.

4 dynamic diameter <10 mum, and 22% for sulfur dioxide.

5 e of electron transport from water to carbon dioxide.

6 ht, which leads to a large release of carbon dioxide.

7 h as water, hydrogen, oxygen, proton, carbon dioxide.

8 ntly the atmospheric concentration of carbon dioxide.

9 ure and atmospheric concentrations of carbon dioxide.

10 produce higher amounts of squalene-2,3;22,23-dioxide.

11 may be used for the transformation of carbon dioxide.

12 moiety accompanied by the release of carbon dioxide.

13 oidance of acidic fumes, ammonia, and carbon dioxide.

14 icarboxylic acid cycle (TCA cycle) to carbon dioxide.

15 e that enables capture and release of carbon dioxide.

16 rating, compressing, and transporting carbon dioxide.

17 fine particulate matter, ozone, and nitrogen dioxide.

18 hyl carbonate (DMC) from methanol and carbon dioxide.

19 y conversion is mainly used to reduce carbon dioxide.

20 tch rovibrational band of atmospheric carbon dioxide.

21 (13%), carbon monoxide (0.68%) and nitrogen dioxide (1000 ppm) in air.

22 dant constituents of exhaust, namely, carbon dioxide (13%), carbon monoxide (0.68%) and nitrogen diox

23 phenothiazin-10-yl)dibenzo[b,d]thiophene-S,S-dioxide, a donor-acceptor-donor (D-A-D) thermally-activa

24 e thermal and magnetic properties of uranium dioxide, a prime nuclear fuel and thoroughly studied act

25 yl)-1,3-dihydro-2,3,4-benzothiadiazepine 2,2-dioxide afforded, after loss of dinitrogen and subsequen

26 rboxylates 1(COOLi) in the absence of carbon dioxide allowed reactions to take place with nitrogen ba

27 tag for the determination of oxygen, carbon dioxide, ammonia, and relative humidity readable by a sm

28 This is the first benzothiadiazine dioxide AMPApam to reach the nanomolar range.

29 the hysteretic phase transition of vanadium dioxide, an all-solid, rewritable metacanvas on which ne

30 MFM-188a exhibits exceptionally high carbon dioxide and acetylene adsorption uptakes with the latter

31 Here we report the binding domains of carbon dioxide and acetylene in a tetra-amide functionalized me

32 d subsequent decarboxylation produces carbon dioxide and biuret.

33 coli normally oxidizes formic acid to carbon dioxide and couples that reaction directly to the reduct

34 The developed catalyst activates carbon dioxide and delivers over 16% yield of DMC without the u

35 ll as carbon stable isotope ratios of carbon dioxide and methane, above and below the pycnocline alon

36 evelopment, whereas among 2,136 boys, sulfur dioxide and nitrogen dioxide exposure in utero, during i

37 were fractionated using supercritical carbon dioxide and pressurized liquid (ethanol and water) extra

38 uctance as a response to increases in carbon dioxide and, more recently, to an abrupt decrease in atm

39 ed 3,4-dihydro-2H-1,2,4-benzothiadiazine 1,1-dioxides and their evaluation as AMPA receptor positive

40 mum in diameter (PM10), nitric oxide, sulfur dioxide, and nitrogen dioxide in different growth phases

41 oxygenase reaction to give succinate, carbon dioxide, and sometimes pyrroline-5-carboxylate occurs.

42 stem producing primarily acetate from carbon dioxide, and their transcriptional activity was mapped t

43 hypercapnia [normal pH with elevated carbon dioxide], and hypercapnic acidosis) during the first 24

44 Lithium titanate and titanium dioxide are two best-known high-performance electrodes t

45 e sequence thus represents the use of carbon dioxide as a removable directing group for the selective

46 The use of sulfur dioxide as preservative in winemaking industry has a dir

47 xamination of 4,1,2-benzoxathiazin-3-one 1,1-dioxides as candidate serine hydrolase inhibitors are di

48 l)-3,4-dihydro-2H-1,2,4-benzothiadiazine 1,1-dioxide (BPAM121) at the highest concentration of modula

49 ro-3,4-dihydro-2H-1,2,4-benzothiadiazine 1,1-dioxide (BPAM344) potentiated glutamate-evoked currents

50 xy-3,4-dihydro-2H-1,2,4-benzothiadiazine 1,1-dioxide (BPAM521) potentiated the recorded peak current

51 meliorate atmospheric accumulation of carbon dioxide by 'pumping' carbon to the deep sea.

52 ation was not influenced by change in carbon dioxide (C), but increased as much as 41% and 23% for yi

53 In this study, the combined effect of sulfur dioxide, caffeic acid, pH and temperature on the light-i

54 Manganese dioxide cathodes are inexpensive and have high theoretic

55 hovirus 11 (E11) with resistance to chlorine dioxide (ClO2) by experimental evolution, and we assesse

56 ow predicted increases in atmospheric carbon dioxide (CO2 ) and air temperature affect silicon accumu

57 ose stored organic carbon and release carbon dioxide (CO2 ) and CH4 .

58 microbial acclimation and the rate of carbon-dioxide (CO2 ) and methane (CH4 ) production.

59 cycling and its response to elevated carbon dioxide (CO2 ) and N addition.

60 rbon in their soils and can sequester carbon dioxide (CO2 ) at a greater rate per unit area than near

61 nt role in regulating the atmospheric carbon dioxide (CO2 ) concentrations and thus affecting the cli

62 Models predicting ecosystem carbon dioxide (CO2 ) exchange under future climate change rely

63 g relative to potential long-term net carbon dioxide (CO2 ) exchange.

64 of northwestern Canada, boreal forest carbon dioxide (CO2 ) fluxes will be altered directly by climat

65 for their role in the terrestrial net carbon dioxide (CO2 ) uptake, which depends largely on plant li

66 Carbon dioxide (CO2 ), a primary product of oxidative metabolis

67 sed nitrogen (N) deposition, elevated carbon dioxide (CO2 ), and increased precipitation - on soil re

68 C) of dissolved organic carbon (DOC), carbon dioxide (CO2 ), and methane (CH4 ) exported from a borea

69 eposition (30 kg N ha(-1) yr(-1) ) on carbon dioxide (CO2 ), methane (CH4 ) and nitrous oxide (N2 O)

70 via greenhouse gas (GHG) exchange of carbon dioxide (CO2 ), methane (CH4 ), and nitrous oxide (N2 O)

71 Carbon dioxide (CO2 ), methane (CH4 ), and nitrous oxide (N2 O)

72 esponses of soil nitrous oxide (N2O), carbon dioxide (CO2) and methane (CH4) emissions to manure (Org

73 port that the environmental stress of carbon dioxide (CO2) anesthesia converts an asymptomatic rhabdo

74 a significant drawdown of atmospheric carbon dioxide (CO2) at that time.

75 rimary production (GPP)-the uptake of carbon dioxide (CO2) by leaves, and its conversion to sugars by

76 al distinct structures of atmospheric carbon dioxide (CO2) caused by known anthropogenic and natural

77 hemical systems (BESs), which convert carbon dioxide (CO2) directly to methane (CH4), promise to be a

78 e feasibility of accelerating gaseous carbon dioxide (CO2) dissolution into a continuous aqueous phas

79 Terrer et al used meta-analysis of carbon dioxide (CO2) enrichment experiments as evidence of an i

80 ative effects of grazing on ecosystem carbon dioxide (CO2) fluxes in this zone remain unclear.

81 Spaceborne observations of carbon dioxide (CO2) from the Orbiting Carbon Observatory-2 are

82 Trapping with carbon dioxide (CO2) gave the respective O-[Zr] bonded cyclic b

83 the other hand, biological uptake of carbon dioxide (CO2) has the potential to offset the positive w

84 Concentrations of atmospheric carbon dioxide (CO2) have continued to increase whereas atmosph

85 um oxide (Cu/ZnO/Al2O3) catalysts for carbon dioxide (CO2) hydrogenation to methanol, the Zn-Cu bimet

86 below its freezing point using solid carbon dioxide (CO2) in an isopropanol bath.

87 due to rising levels of anthropogenic carbon dioxide (CO2) in the world's oceans is a major force set

88 creasing concentration of atmospheric carbon dioxide (CO2) is altering the productivity of the biosph

89 n of seawater caused by anthropogenic carbon dioxide (CO2) is anticipated to influence the growth of

90 Although carbon dioxide (CO2) is highly abundant, its low reactivity has

91 e measured growth rate of atmospheric carbon dioxide (CO2) originate primarily from fluctuations in c

92 an grain surfaces for electrochemical carbon dioxide (CO2) reduction to carbon monoxide (CO) but not

93 le energy decarbonization futures and carbon dioxide (CO2) removal rates will be an important contrib

94 is key to the efficient conversion of carbon dioxide (CO2) to methane (CH4) with application to bioga

95 capacity to release large amounts of carbon dioxide (CO2) to the atmosphere in response to increasin

96 while the growth rate of atmospheric carbon dioxide (CO2) was the largest on record.

97 Carbon dioxide (CO2) which constitutes a major part of the biog

98 gas mixture containing hydrogen (H2), carbon dioxide (CO2), and carbon monoxide (CO), or with H2 and

99 calculated for carbon monoxide (CO), carbon dioxide (CO2), and particulate matter (PM).

100 n attractive or aversive responses to carbon dioxide (CO2), depending on its recently experienced CO2

101 is the largest sink for anthropogenic carbon dioxide (CO2), having absorbed roughly 40 per cent of CO

102 (O2), ozone (O3), water vapor (H2O), carbon dioxide (CO2), nitrous oxide (N2O), and methane (CH4) re

103 aces to hydrogen (H2) and mixtures of carbon dioxide (CO2)/H2 show an absence of carbon (C) 1s signal

104 es of other volcanic gases (including carbon dioxide, CO2) and toxic trace metals (e.g., mercury).

105 ent and future changes in atmospheric carbon dioxide concentration ([CO2 ]) is critical for understan

106 Atmospheric carbon dioxide concentrations have been rising during the past

107 This study analyzed the effect of low sulfur dioxide concentrations on the chromatic properties, phyt

108 imate change and elevated atmospheric carbon dioxide concentrations-are increasing demand for N, the

109 ity trend was investigated at various sulfur dioxide concentrations.

110 rption in cuprous oxide for selective carbon dioxide conversion to carbon monoxide with visible light

111 ch to utilization and valorization of carbon dioxide could be developed at industrially significant r

112 -acridin-10-yl)-9,9-dimethylthioxanthene-S,S-dioxide (DDMA-TXO2), 2,7-bis(phenoxazin-10-yl)-9,9-dimet

113 been validated and optimized for free sulfur dioxide detection in the range of 1-60mgL(-1) and for to

114 analytical method for free and total sulfur dioxide detection is proposed.

115 interface, contrary to most benzothiadiazine dioxides developed to date.

116 sophyll conductance (i.e. the rate of carbon dioxide diffusion from substomatal cavities to the sites

117 phenothiazin-10-yl)dibenzo[b,d]thiophene-S,S-dioxide displays both a quasi-equatorial CT state and a

118 enoxazin-10-yl)-9,9-dimethylthioxanthene-S,S-dioxide (DPO-TXO2) and 3,11-di(10H-phenoxazin-10-yl)dibe

119 as significantly increased by 18% for sulfur dioxide during the 3 months before conception and, durin

120 y)-3,4-dihydro-2H-1,2,4-benzothiadiazine 1,1-dioxide, EC50 = 2.0 nM).

121 system-level carbon exchange and soil carbon dioxide efflux with local meteorology data.

122 solid oxide cells, and in particular carbon dioxide electrolysers, afford chemical storage of availa

123 We valued the delayed carbon dioxide emissions and found that this program benefit is

124 er year from EGU emissions, driven by sulfur dioxide emissions forming PM2.5.

125 From 1890 to 2015, anthropogenic carbon dioxide emissions have increased atmospheric CO2 concent

126 c cost caused by an additional ton of carbon dioxide emissions or its equivalent.

127 Less than half of anthropogenic carbon dioxide emissions remain in the atmosphere.

128 erosol, driven primarily by declining sulfur dioxide emissions.

129 3 to 2.6% (0.6-1.1 billion mega-grams carbon-dioxide-equivalent (Mg CO2e(-1)) compared to those witho

130 of food waste range from -0.20 kg of carbon dioxide equivalents (CO2e) for anaerobic digestion (AD)

131 ns of four gaseous compounds, oxygen, carbon dioxide, ethylene, and nitric oxide, change during the s

132 phenothiazin-10-yl)dibenzo[b,d]thiophene-S,S-dioxide exhibits only one quasi-equatorial conformer on

133 mong 2,136 boys, sulfur dioxide and nitrogen dioxide exposure in utero, during infancy, and in childh

134 oking, an interquartile increase in nitrogen dioxide exposure increased the risk of membership in the

135 analytical procedure was set up on a silicon dioxide flat substrate to standardize SERS methodology.

136 tern of soil organic matter decay and carbon dioxide fluxes to the atmosphere, with phases of substan

137 tasked with permitting the uptake of carbon dioxide for photosynthesis while limiting water loss fro

138 lbore cement that has been exposed to carbon dioxide for three decades.

139 e, n-butane and iso-butane as well as carbon dioxide for two shales and isolated kerogens determined

140 ity (gsmax ), and hence the uptake of carbon dioxide for water lost.

141 Carbon dioxide forms covalent complexes with N-heterocyclic car

142 - or iron-based catalysis, to extract carbon dioxide from a carboxylic acid and economically replace

143 methane, nonmethane hydrocarbons, and carbon dioxide from natural gas well pad soils and from nearby

144 g flash vacuum pyrolytic extrusion of sulfur dioxide from the respective 16-membered sulfone precurso

145 ew carbon-carbon bonds by introducing carbon dioxide gas (CO2) or its hydrated form, bicarbonate (HCO

146 Our calculations also show that terbium dioxide has a high electronic entropy and thus could als

147 s in temperature, water, nitrogen and carbon-dioxide have been maintained for over 15 years.

148 High-temperature phases of hafnium dioxide have exceptionally high dielectric constants and

149 positive polarity and carbon dioxide, sulfur dioxide, hydrochloric acid, cyanogen chloride, and hydro

150 nfavourable product for the important carbon dioxide hydrogenation reaction.

151 Li-rich garnets react with water and carbon dioxide in air to form a Li-ion insulating Li2 CO3 layer

152 , nitric oxide, sulfur dioxide, and nitrogen dioxide in different growth phases with clinically asses

153 for the high uptakes of acetylene and carbon dioxide in MFM-188a.

154 he simultaneous exchange of water and carbon dioxide in terrestrial ecosystems.

155 the brainstem to increased levels of carbon dioxide in the blood is coordinated with the response of

156 he range of 1-60mgL(-1) and for total sulfur dioxide in the range of 30-300mgL(-1) with a limit of de

157 from 240 to 340 kelvin in metallic vanadium dioxide in the vicinity of its metal-insulator transitio

158 nium tetrafluoroborates and DABCO-bis(sulfur dioxide) in a one-pot procedure.

159 During laparoscopic surgery, carbon dioxide insufflation may produce significant hemodynamic

160 onductance properties of the classic silicon dioxide insulator.

161 n that is released is used to convert carbon dioxide into the organic molecules that constitute life

162 Nitrogen dioxide is a common air pollutant with growing evidence

163 Carbon dioxide is an essential atmospheric component in martian

164 ure of charge carriers in nanoscale titanium dioxide is important for its use in solar energy convers

165 Carbon dioxide is Mars' primary atmospheric constituent and is

166 energy is proposed.The nuclear fuel uranium dioxide is of intrinsic interest due to its industrial a

167 combination with reduced emission of carbon dioxide is one of the most pressing challenges of mankin

168 xide plus water yields dihydrogen and carbon dioxide) is an essential process for hydrogen generation

169 he case of thiadiazolobenzothiadiazepine 6,6-dioxides it has been found that the ring closure of the

170 lorine (K0 = 2.24 cm(2)/(V s)), and nitrogen dioxide (K0 = 2.25 cm(2)/(V s)).

171 ocedures, specifically fully ablative carbon dioxide laser or medium-depth chemical peel.

172 occurring after ablative procedures (carbon dioxide laser resurfacing or Jessner solution/trichloroa

173 issue-sparing surgical techniques and carbon dioxide laser treatments also are available, but the evi

174 biocompatible interface between the titanium dioxide layer of the implant surface and the peri-implan

175 e modified by depositing amorphous manganese dioxide layers via cyclic voltammetry (CV) and electrole

176 inetically preferred over the loss of sulfur dioxide leading to o-quinodimethane, which is the key in

177 triethylamine (1a) in the presence of carbon dioxide leads to the hydrogenation of CO2, the alpha-C-C

178 oups based on a combination of pH and carbon dioxide levels (normocapnia and normal pH, compensated h

179 val may be useful to normalize pH and carbon dioxide levels, but further studies will be necessary to

180 to living in an environment with high-carbon dioxide levels.

181 seful yield for uranium atoms from a uranium dioxide matrix is 0.4% and rises to 2% when the surface

182 of the three major greenhouse gases (carbon dioxide, methane, and nitrous oxide) as well as carbon s

183 Diurnal measurements of methane and carbon dioxide mole fraction, and isotopic values at King's Col

184 intermediate chemical state between a carbon dioxide molecule and a carbonate ion.

185 en demonstrated by using mesoporous titanium dioxide (mp-TiO2) as an electron-transporting layer.

186 rt on the fabrication of a graphene/titanium dioxide nanocomposite (TiO2-G) and its use as an effecti

187 potential neurotoxicity of inhaled titanium dioxide nanoparticles (TiO2 NPs), the toxicokinetics and

188 A new type of nitrogen dioxide (NO2 ) gas sensor based on copper phthalocyanine

189 ter <2.5microm (PM2.5) (1999-2004), nitrogen dioxide (NO2) (2006), and ozone (O3) (2002-2004) concent

190 Exposure to traffic related nitrogen dioxide (NO2) air pollution is associated with adverse h

191 ee different channels, forming: (1) nitrogen dioxide (NO2) and hydroxyl radical ((*)OH), (2) nitrite

192 lated photolysis rate constants for nitrogen dioxide (NO2) and nitrate radicals (NO3) in the presence

193 osure to elevated concentrations of nitrogen dioxide (NO2) and particulate matter with aerodynamic di

194 Ambient and home exposure to nitrogen dioxide (NO2) causes asthma symptoms and decreased lung

195 coarse, and PM10, respectively) and nitrogen dioxide (NO2) concentrations at place of residence using

196 ntrations, ultrafine particles, and nitrogen dioxide (NO2) concentrations were measured.

197 Mean annual residential nitrogen dioxide (NO2) exposure was estimated for current residen

198 y reactive and rapidly converted to nitrogen dioxide (NO2) in the presence of ozone, making it imposs

199 osure estimates we created a global nitrogen dioxide (NO2) land use regression model for 2011 using a

200 ased measurements of urban form and nitrogen dioxide (NO2) to explore relationships between urban for

201 mum (PM2.5), black carbon (BC), or nitrogen dioxide (NO2) variations that were independent of year,

202 </=10 mum in aerodynamic diameter), nitrogen dioxide (NO2), and carbon monoxide (CO) and risk of inci

203 ations between maternal exposure to nitrogen dioxide (NO2), dietary intake of methyl nutrients, and t

204 ansportation-related air pollutant, nitrogen dioxide (NO2), in the United States.

205 ovide site-specific measurements of nitrogen dioxide (NO2), sulfur dioxide (SO2) and volatile organic

206 2.5 micrometers or less (PM2.5) and nitrogen dioxide (NO2)] predictors, we conducted a nonlinear exte

207 re), effecting O-O cleavage, giving nitrogen dioxide (.NO2) plus a ferryl compound [(P(Im))Fe(IV) hor

208 In this study, uptake of titanium dioxide NPs and larger bulk particles (BPs) in rice plan

209 owed two molecules of the co-product, carbon dioxide, one in the active site and another trapped in t

210 lters, but little change is seen in nitrogen dioxide over the period from 1995 to 2015.

211 ands now emit hundreds of megatons of carbon dioxide per year because of human disruption of the feed

212 We used supercritical carbon dioxide process to encapsulate ATRA in largely uniform p

213 dicted, and median minute ventilation/carbon dioxide production slope 34.9 (IQR, 27.9-39.4).

214 dicted, and higher minute ventilation/carbon dioxide production slope.

215 le and relate these quantities to the carbon dioxide reaction front on the cement.

216 bral blood flow, oxygen delivery, and carbon dioxide reactivity remain unknown.

217 ventriculomegaly in the BDG group) or carbon dioxide reactivity with neurological injury.

218 ion of lithium enolates 2(Li(+)) with carbon dioxide, readily undergo decarboxylative disproportionat

219 a highly efficient hydrogen-dependent carbon dioxide reductase when gaseous CO2 and H2 are placed und

220 r the hydrogen evolution (Co-N-C) and carbon dioxide reduction (Fe-N-C and Mn-N-C).

221 insights into how to design improved carbon dioxide reduction catalysts.

222 phthalocyanine-based high-performance carbon dioxide reduction electrocatalyst material developed wit

223 our investigations of electrochemical carbon dioxide reduction over CuAg bimetallic electrodes and su

224 ends in electrocatalytic activity for carbon dioxide reduction over different metal catalysts that ra

225 Electrochemical carbon dioxide reduction to fuels presents one of the great cha

226 such as hydrogen peroxide production, carbon dioxide reduction, and nitrogen reduction, where the dev

227 ossil-based chemicals and fuels, then carbon dioxide refineries envisioned in the future would be abl

228 The dissolved CO2 is removed by a carbon dioxide removal device prior to detection.

229 nical adjuncts such as extracorporeal carbon dioxide removal may be useful to normalize pH and carbon

230 adiazolo[3,4-h][2,3,4]benzothiadiazepine 6,6-dioxides, resulted in a substantially different product

231 based on atomization of supercritical carbon dioxide (SC-CO2)-expanded lipid.

232 ing and is standard in social cost of carbon dioxide (SCC) models, and of average utilitarianism (AU)

233 orefined by consecutive supercritical carbon dioxide (SFE-CO2) pressurised liquid (PLE) and enzyme-as

234 Sulfur dioxide significantly decreased the total amount of glyo

235 eposited graphene films on sapphire, silicon dioxide/silicon and germanium.

236 hybrid molybdenum disulfide (MoS2) - silicon dioxide (SiO2) one-dimensional, free-standing photonic-c

237 d single-layer graphenes (SLGs) on a silicon dioxide (SiO2)/Si substrate, a silicon nitride (SiN) mem

238 asurements of nitrogen dioxide (NO2), sulfur dioxide (SO2) and volatile organic compounds (VOCs, such

239 The effects of various sulfur dioxide (SO2) concentrations (0, 451, 832, 1594, 2112 an

240 The global flux of sulfur dioxide (SO2) emitted by passive volcanic degassing is a

241 rely heavily on coal for energy, and sulfur dioxide (SO2) emitted from coal-fired power plants and i

242 itions in the presence and absence of sulfur dioxide (SO2), ammonia (NH3), and relative humidity (RH)

243 (VIN) as a sustainable alternative to sulfur dioxide (SO2), in this study, the chromatic features, ph

244 Emission mitigation efficiencies of sulfur dioxide (SO2), nitrogen oxides (NOx), ammonia (NH3), and

245 on with ammonia over an inexpensive titanium dioxide solid acid catalyst.

246 Carbon dioxide sorption isotherms were studied to 30 bar.

247 at at low pressures up to 15 GPa, the carbon dioxide speciation is dominated by molecular form and ca

248 Here we show that single crystals of uranium dioxide subjected to strong magnetic fields along threef

249 oline (DOPC) liposomes contacting a titanium dioxide substrate.

250 phosphonate in positive polarity and carbon dioxide, sulfur dioxide, hydrochloric acid, cyanogen chl

251 m species, anchored on a zeolite or titanium dioxide support suspended in aqueous solution, catalyse

252 either the zeolite-supported or the titanium-dioxide-supported catalyst, yield around 22,000 micromol

253 ansformation depends on the anatase titanium dioxide surface termination and the vanadium oxide layer

254 tant role in the observed atmospheric carbon dioxide swings by affecting the partitioning of carbon b

255 A solid phase in the mixed water-carbon dioxide system, previously identified as carbonic acid,

256 The effect of supercritical carbon dioxide technology (SCCD, 14, 16, and 18MPa at 35+/-2 de

257 greater impact on concentrations of nitrogen dioxide than of PM2.5.

258 rimary production (GPP)-the amount of carbon dioxide that is 'fixed' into organic material through th

259 supercritical atmosphere of water and carbon dioxide that was outgassed during magma ocean cooling.

260 st magneto-elastic memory that makes uranium dioxide the hardest piezomagnet known.

261 oro-substituted 2,3,4-benzothiadiazepine 2,2-dioxide, the formation of sulfone via o-quinodimethane i

262 mical weathering consumes atmospheric carbon dioxide through the breakdown of silicate minerals and i

263 In this context, titanium dioxide (TiO2) and iron oxide (hematite, alpha-Fe2O3) ar

264 aphitic carbon nitride (g-C3N4) and titanium dioxide (TiO2) as photoactive nanomaterials, ascorbic ac

265 nsparent indium tin oxide (ITO) and titanium dioxide (TiO2) electrodes.

266 The Rutile form of titanium dioxide (TiO2) has been widely accepted as commercially

267 Titanium dioxide (TiO2) is a widely used additive in foods.

268 changes, incomplete removal of the titanium dioxide (TiO2) layer, and scanty plaque aggregates, wher

269 gh-throughput platform for studying titanium dioxide (TiO2) photocatalytic oxidation reactions by per

270 Here, we show the ALD of titanium dioxide (TiO2) protective nanolayer onto the electrospun

271 prototypical systems are discussed: titanium dioxide (TiO2), iron oxides (Fe3O4), and, as an example

272 ential adsorption of the vesicles on silicon dioxide, titania, and gold surfaces, and the differences

273 us catalytic hydrogenation of gaseous carbon dioxide to chemicals and fuels.

274 acid, n-octadecylphosphonic acid, or carbon dioxide to form surface bound n-alkylammonium oleate, ph

275 Hydrogen-dependent reduction of carbon dioxide to formic acid offers a promising route to green

276 Direct conversion of carbon dioxide to multicarbon products remains as a grand chall

277 talyst for electrochemically reducing carbon dioxide to products such as methane, ethene, and ethanol

278 leoresins, extracted by supercritical carbon dioxide, to obtain freeze-dried powders useful as ready-

279 of ethanol, titratable acidity, total sulfur dioxide, total phenolics, iron and copper).

280 ly characterized in the reaction with carbon dioxide under mild conditions.

281 to short-term declines in terrestrial carbon dioxide uptake and storage.

282 surfaces through which water loss and carbon dioxide uptake occur, are closed in response to drought

283 The electrochemical reduction of carbon dioxide using renewably generated electricity offers a p

284 GIL77, which accumulates squalene-2,3;22,23-dioxide, verified the alpha-onocerin production.

285 The complex phase transitions of vanadium dioxide (VO2) have drawn continual attention for more th

286 ulator-to-metal phase transition in vanadium dioxide (VO2) is a canonical example of such correlation

287 ated by microstructural change of a vanadium dioxide (VO2) thin film.

288 loits insulator-metal transition in Vanadium Dioxide (VO2) to efficiently solve vertex coloring of gr

289 con) that provide limited activity, vanadium dioxide (VO2), which exhibits an insulator-to-metal tran

290 raction and tomography measurements, uranium dioxide was determined the dominant corrosion product ov

291 3,6-Diazido-1,2,4,5-tetrazine-1,4-dioxide was produced from oxidation with peroxytrifluoro

292 e-resolved photoemission spectra of titanium dioxide, we show that this transition originates from no

293 e (BBL), cyclohexene oxide (CHO), and carbon dioxide were realized in one-pot reactions utilizing a L

294 self-assembled monolayers on gold or silicon dioxide were used to harvest conditioning layers from so

295 duces alpha-onocerin from squalene-2,3;22,23-dioxide when transiently expressed in Nicotiana bethamia

296 The M1 form of vanadium dioxide, which exhibits a reversible insulator-metal tra

297 The addition of sulfur dioxide, which has well-known side effects, increased th

298 Large volcanic eruptions produce sulfur dioxide, which in turn produces aerosols; these eruption

299 o study vanadium oxide supported on titanium dioxide, which is of relevance as a catalyst in, e.g., n

300 Electrochemical reduction of carbon dioxide with renewable energy is a sustainable way of pr