ライフサイエンスコーパス: electrolytic

1 Electrolytic ablation (EA) is a promising nonthermal tum

2 This study examined whether electrolytic ablation of the periventricular anteroventr

3 elt electrode was anodized and used for flow electrolytic accumulation and release of Pu.

4 Cl prepared with alternative methods such as electrolytic and chemical AgCl deposition or thermal fab

5 DESs have been first explored as electrolytic and environmentally friendly media for tuni

6 Both electrolytic and IA MPOA lesions significantly increased

7 This study examined the effects of electrolytic and ibotenic acid (IA) lesions of the media

8 Electrolytic and ibotenic acid lesions of the PMd have b

9 Adult and pediatric dialysis stabilized the electrolytic and metabolic profiles while maintaining ac

10 The present study compared the effects of electrolytic and neurotoxic lesions of MHDC nuclei in ra

11 asuring fear-related freezing behavior after electrolytic and neurotoxic lesions of the LA or LA/BA n

12 drodynamic spectroscopic characterization of electrolytic and rf-sputtered solid Cu coatings that we

13 The local structure in an electrolytic background is deformed by micro- and nanosc

14 e electrodeposited congruently from a single electrolytic bath and the resulting nanotube arrays were

15 Here, we investigated the electrolytic behaviors of aqueous electrolytes as a func

16 nction is communicated with its own external electrolytic buffer which is used both to supply electri

17 e simultaneously preventing the formation of electrolytic byproducts.

18 Aluminum electrolytic capacitors (AECs) are widely used for alter

19 Aluminum electrolytic capacitors are the most commonly used but a

20 ntial to complement or replace batteries and electrolytic capacitors in a variety of applications.

21 Replacing large electrolytic capacitors with small film capacitors can e

22 m capacitors have longer lifetime than large electrolytic capacitors.

23 We present here a new microbial electrolytic carbon capture (MECC) approach to potential

24 production of high-pressure gases inside the electrolytic cell (a major cause of membrane degradation

25 The electrolytic cell assembled with these two catalysts can

26 s could be coupled with H(2) oxidation in an electrolytic cell to produce NH(3) at ambient pressure.

27 lid oxide fuel cells (SOFCs) and solid oxide electrolytic cells (SOECs).

28 hough highly acidic conditions are common in electrolytic cells, this is a rare example of a homogene

29 Rats received either bilateral electrolytic cerebellar dentate nuclei lesions or sham s

30 C (nominally 99 at. % (13)C) was measured by electrolytic CO(2) generation to be 98.9 at. % (13)C.

31 Electrolytic CO(2) reduction fails in the presence of O(

32 ectrodeposition can be achieved following an electrolytic conditioning process.

33 e chiral selector under optimized background electrolytic conditions.

34 ch of the haloacids which contributes to the electrolytic conductance.

35 It appears that electrolytic conduction of the solution wetting of the n

36 lutions are generally assumed to be superior electrolytic conductors because of the unique dielectric

37 reactive carbon capture," which involves the electrolytic conversion of the eluent from CO(2) capture

38 ion between the nineteen factors influencing electrolytic copper quality and the five quality control

39 pport vector machine, was devised to predict electrolytic copper quality based on the nineteen factor

40 The findings furnish valuable insights for electrolytic copper quality management.

41 thm elucidated the primary factors governing electrolytic copper quality.

42 In untreated controls, electrolytic coronary injury (50 microA, 3 hours) result

43 In nanopore sequencing devices, electrolytic current signals are sensitive to base modif

44 DNA occluding the pore mouth blocks the electrolytic current through the pore; these current blo

45 clearly decreases the acidity, increases the electrolytic current, and decreases the stability of the

46 eries are swallowed, they limit the external electrolytic currents responsible for tissue injury.

47 In contrast, electrolytic damage to the PPC had no effect on conditio

48 In Experiment 1, electrolytic damage to the RSP either before or immediat

49 Moreover, our results indicate that electrolytic data collected using less resource-intensiv

50 lysis of kinetic mechanism and growth during electrolytic deposition processes.

51 iration lesions were combined with bilateral electrolytic destruction of the medial NTS and the DMV,

52 fumes from fumigation chambers onto GAC, and electrolytic destruction of the sorbed CH3Br could mitig

53 Should an artificial electrolytic device achieve the same feat, it would revo

54 Iron EC involves the electrolytic dissolution of an Fe(0) electrode to Fe(II)

55 We found that the permissive effect of large electrolytic DMH lesions on cold-induced hypothermia was

56 trical double layer (EDL) that occurs at the electrolytic-electronic interface, leading to ultrahigh

57 system equipped with isocratic pumps and an electrolytic eluent generator (EG) is introduced, replac

58 e were examined at 6 months after unilateral electrolytic entorhinal cortex lesions.

59 al to the sensitivity of charge detection in electrolytic environments, such as in field-effect trans

60 tion upon optical excitation in both dry and electrolytic environments.

61 However, thermal-electrolytic fabrication requires a scaffold material up

62 electrospray system as a controlled-current electrolytic flow cell.

63 ically charged macromolecules hydrated in an electrolytic fluid.

64 r the development of practical catalysts for electrolytic fuel synthesis.

65 liquid-metal Galinstan interconnects and an electrolytic gate dielectric comprised of honey.

66 Recently electrolytic gating, which can generate large electric f

67 didates that present a strong response under electrolytic gating.

68 for 13-carbon isotope analysis is based upon electrolytic generation of carbon dioxide into the preev

69 ace plasmon resonance (SPR) sensor utilizing electrolytic grafting of diazonium salts to individually

70 Energy savings through accompanying electrolytic H2 and O2 production were accounted for.

71 Py3Me-Bpy)(OH(2) )](PF(6) )(2) catalyzes the electrolytic HER at -1.3 V (vs.

72 Unilateral electrolytic hippocampal lesions in adult rats typically

73 that the deficits observed previously after electrolytic hippocampal lesions were the result of dama

74 ced a deficit similar to that observed after electrolytic hippocampal lesions.

75 Results show that electrolytic hydrogen cuts emissions, on average, by 85%

76 untries have implemented policies to promote electrolytic hydrogen development, the impact of these m

77 llations, likely hindering the transition to electrolytic hydrogen in regions with poor renewables an

78 at policy and economic support for nonfossil electrolytic hydrogen is critical to avoid an increase i

79 Life cycle GHG emissions of electrolytic hydrogen produced from solar PV, wind, and

80 in water-scarce regions; and (iii) upscaling electrolytic hydrogen production could be limited by ren

81 However, electrolytic hydrogen production could still result in c

82 that renewable (solar photovoltaic and wind) electrolytic hydrogen production generates at least 50-9

83 et-zero emissions by 2050 include scaling-up electrolytic hydrogen production, however, this poses te

84 lower overpotential and higher efficiency in electrolytic hydrogen production.

85 ned by domestic natural resources to achieve electrolytic hydrogen self-sufficiency in a net-zero tar

86 r importers of industries that would rely on electrolytic hydrogen.

87 gus, by determining the effects of bilateral electrolytic IGL lesions (IGL(X)) on: (i) photic entrain

88 side effects in a nonhuman primate model of electrolytic-induced arterial thrombosis.

89 fects of the treatments were evaluated after electrolytic injury (250 microA for 180 minutes) in the

90 n similar to Par4(-/-) mice following venous electrolytic injury but were more susceptible than Par4(

91 in both the rabbit veno-venous shunt and dog electrolytic injury models.

92 Thrombogenesis was initiated by electrolytic injury of the intimal surface of the left c

93 Electrolytic injury of the left circumflex coronary arte

94 dog model of left circumflex coronary artery electrolytic injury was used to assess the oral antithro

95 y thrombosis was induced in dogs by vascular electrolytic injury.

96 d explore fundamental and applied aspects of electrolytic interfaces incorporating nanoscale building

97 An inline electrolytic ion suppressor is used to quantitatively ne

98 ate maize meal, would be more effective than electrolytic iron in addressing both iron and zinc defic

99 cronutrient fortification-mix, with no iron, electrolytic iron or NaFeEDTA on the availabilities of i

100 While replacing electrolytic iron with NaFeEDTA in multi-micronutrient f

101 Replacing electrolytic iron with NaFeEDTA significantly (p 0.05) i

102 Electrolytic LA lesions attenuated post-shock freezing,

103 The NPN assay, electrolytic leakage and SEM analysis showed membrane da

104 rCHI4 pretreatment reduced the drip loss and electrolytic leakage in frozen beans, revealing that it

105 n terms of antioxidant activity and membrane electrolytic leakage values upon PAW treatment.

106 this question, we ablated the SCN of mice by electrolytic lesion and examined hippocampus-dependent m

107 rats were subjected to either sham (SHAM) or electrolytic lesion of both the dorsal and ventral part

108 This study investigated the effects of an electrolytic lesion of the commissural subnucleus of the

109 We have shown previously that electrolytic lesion of the MnPO attenuated the increased

110 Electrolytic lesion of the SCN 2 d after training for co

111 This study examined whether a prior electrolytic lesion of the tissue surrounding the antero

112 essed the possibility that the effect of the electrolytic lesion resulted from damage to fibers origi

113 nd thus may be functionally equivalent to an electrolytic lesion, but without allowing time for neura

114 dologies, such as electrical stimulation and electrolytic lesion.

115 nistration of an NMDA receptor antagonist or electrolytic lesioning of the pontine Kolliker-Fuse nucl

116 n (PPI) of the acoustic startle reflex after electrolytic lesions aimed at the central NAcc, the NAcc

117 tudies we tested the effects of bilateral of electrolytic lesions and reversible inactivation of the

118 of the rostral hypothalamus sustained large electrolytic lesions at either the rostral or the caudal

119 ing the anatomical and functional effects of electrolytic lesions at the level of the lateral hypotha

120 Electrolytic lesions before or after training were place

121 Pretraining bilateral electrolytic lesions blocked the acquisition of conditio

122 lesions of the Ce reduced flank marking and electrolytic lesions completely inhibited flank marking

123 However, electrolytic lesions damage both cell bodies and fibers

124 Moreover, electrolytic lesions demarcating physiological tuning pr

125 a by HPLC three weeks following placement of electrolytic lesions in DRN.

126 Using selective electrolytic lesions in rats, here we examined the role

127 9b and 29c/d, and was severely attenuated by electrolytic lesions in the dorsal hippocampus.

128 Three weeks following placement of electrolytic lesions in the DRN, the concentrations of 5

129 We discovered, however, that small electrolytic lesions in the midbrain severely impair a c

130 also inhibited in animals that had received electrolytic lesions in the rostral ventromedial medulla

131 In rats, electrolytic lesions in these regions may give rise to t

132 Large electrolytic lesions including the rostral ventral nucle

133 these investigations, physical, chemical, or electrolytic lesions of anatomical structures are applie

134 ellar cortex that was confirmed using small, electrolytic lesions of cerebellar cortex.

135 lar response and to CTA learning in general, electrolytic lesions of insular (gustatory) cortex (IC)

136 Electrolytic lesions of insular cortex blocked behaviora

137 ts were given either unilateral or bilateral electrolytic lesions of insular cortex or 'sham' operati

138 Bilateral electrolytic lesions of MCVA significantly reduced, by o

139 Bilateral electrolytic lesions of NaCN sensitive sites of RVL, whi

140 Bilateral electrolytic lesions of RVLM did not affect responses fr

141 Animals were given electrolytic lesions of the ACC and then trained in the

142 In contrast, electrolytic lesions of the AHN and VMH reduced freezing

143 Electrolytic lesions of the amygdala effectively blocked

144 ts were given either unilateral or bilateral electrolytic lesions of the amygdala or "sham' operation

145 lar response and to CTA learning in general, electrolytic lesions of the amygdala were combined with

146 in conscious rats which had received sham or electrolytic lesions of the anteroventral third ventricl

147 th bilateral, electrophysiologically guided, electrolytic lesions of the area was examined in Experim

148 to female rats demonstrating that bilateral electrolytic lesions of the BNST increased immobility an

149 ntrast to ibotenic lesions of the CeA, small electrolytic lesions of the CeA strongly affected both p

150 PPI was significantly reduced by electrolytic lesions of the central NAcc, as well as by

151 ulation) in experimental rats [that received electrolytic lesions of the central nucleus of the amygd

152 M. Kim and M. Davis previously reported that electrolytic lesions of the central nucleus of the amygd

153 After bilateral electrolytic lesions of the cPAGl,vl during gestation or

154 ive experiments that examined the effects of electrolytic lesions of the dlPAG and the vPAG in learne

155 We have shown previously that electrolytic lesions of the dorsal hippocampus (DH) prod

156 In each study, rats with electrolytic lesions of the dorsal hippocampus and sham-

157 startle almost completely, whereas the large electrolytic lesions of the dorsal hippocampus did not b

158 able to replicate our original finding that electrolytic lesions of the dorsal hippocampus render ra

159 Previous studies have shown that electrolytic lesions of the dorsal hippocampus render th

160 In the past, we showed that large electrolytic lesions of the dorsomedial hypothalamus (DM

161 nts for generating HD cell activity, we made electrolytic lesions of the DTN or LMN in rats and scree

162 Experiment I investigated the effects of electrolytic lesions of the entorhinal cortex on LI in a

163 h this observation, ablating LHb outputs via electrolytic lesions of the fasciculus retroflexus (FR)

164 Electrolytic lesions of the fasciculus retroflexus block

165 ions of the parahippocampal region (PARA) or electrolytic lesions of the fimbria-fornix (FNX) and wer

166 Bilateral electrolytic lesions of the globus pallidus (GP), superi

167 The learning capacities of rats with electrolytic lesions of the gustatory thalamus (GT) were

168 taste preferences and aversions of rats with electrolytic lesions of the gustatory thalamus (GT).

169 ive contrast, was eliminated after bilateral electrolytic lesions of the gustatory thalamus.

170 Mice received control lesions or bilateral electrolytic lesions of the habenula and were tested for

171 Bilateral electrolytic lesions of the lateral and ventrolateral ca

172 Importantly, this bias was abolished by both electrolytic lesions of the LHb and selective ablation o

173 den hamsters (Mesocricetus auratus) received electrolytic lesions of the Me or sham surgery and were

174 Electrolytic lesions of the medial septal area were perf

175 Electrolytic lesions of the medial septal region leads t

176 S. Berry and R. Thompson reported that electrolytic lesions of the medial septum significantly

177 n testing this hypothesis, it was found that electrolytic lesions of the medial septum, but not the l

178 anol consumption paradigm by confirming that electrolytic lesions of the NAc core decreased ethanol c

179 Electrolytic lesions of the NAc core increased locomotio

180 anterior thalamus after either neurotoxic or electrolytic lesions of the NPH.

181 Bilateral electrolytic lesions of the nucleus of the solitary trac

182 Adult female rats received either bilateral electrolytic lesions of the PDA or sham lesions.

183 Electrolytic lesions of the PMd did not reduce TMT-induc

184 amine this possibility, effects of bilateral electrolytic lesions of the POM on singing and other beh

185 In Experiment 1, electrolytic lesions of the POR or PER produced impairme

186 n AL and FR groups received either bilateral electrolytic lesions of the PVN (PVNx) or sham lesions (

187 Our laboratory recently demonstrated that electrolytic lesions of the retrosplenial cortex (RSP),

188 t this hypothesis, we produced neurotoxic or electrolytic lesions of the RSP and recorded HD cells in

189 Electrolytic lesions of the RT or MLF but not the LC/PVG

190 Electrolytic lesions of the SCN abolished circadian loco

191 Pretraining electrolytic lesions of the VH reproduced the effects of

192 Small electrolytic lesions of the VLL of ventrolateral tegment

193 Subtotal electrolytic lesions of this division of the Psol caused

194 e, separate animals were prepared with small electrolytic lesions placed in the RVM.

195 Electrolytic lesions placed in the ventromedial hypothal

196 we present and test a platform for creating electrolytic lesions through chronically implanted, intr

197 nt expression of AVP in the BNST and MeA and electrolytic lesions to eliminate the SCN, effectively e

198 e use the CPP procedure along with selective electrolytic lesions to examine the neural areas underly

199 We have used aspiration and electrolytic lesions to investigate the contributions of

200 Electrolytic lesions to the amygdala, a limbic structure

201 roup than in the sham group, suggesting that electrolytic lesions to the medial septum can enhance LI

202 Experiment 1 explored the role of electrolytic lesions to the MT in the formalin test.

203 It was hypothesized that animals with electrolytic lesions to the MT would have attenuated paw

204 Animals with electrolytic lesions to their cerebellum (targeting the

205 , suggesting that the blockade seen with the electrolytic lesions was caused by damage to fibers of p

206 Electrolytic lesions were made bilaterally in RN inhibit

207 Electrolytic lesions were made in the medial prefrontal

208 However, these electrolytic lesions were nonselective and may have also

209 Electrolytic lesions were produced in the medial or medi

210 As expected, bilateral electrolytic lesions within the AV3V region (the ventral

211 r jaw skin surface representation in SI, and electrolytic lesions, recovered from electrode penetrati

212 Electrolytic lesions, which destroyed 31+/-0.04% of the

213 interpositus nucleus (muscimol) or permanent electrolytic lesions.

214 inactivation confirmed previous results with electrolytic lesions.

215 impairments were produced by neurotoxic and electrolytic lesions.

216 stigated using c-fos immunocytochemistry and electrolytic lesions.

217 were divided into three groups: a unilateral electrolytic LH lesion group (n = 6), a sham lesion grou

218 Capillary osmotic (CO) transport of electrolytic liquids driven by a concentration gradient

219 a ferritic steel with deuterium by means of electrolytic loading to achieve a high hydrogen concentr

220 Five systems were investigated: electrolytic manganese dioxide (EMD), the model compound

221 ed as a conductive skeleton to anchor highly electrolytic manganese nanoparticles (Mn NPs), which wer

222 es greater than that of previous reports for electrolytic manganese oxide.

223 first prepared using phosphogypsum (PG) and electrolytic manganese residue (EMR) as raw materials fo

224 Electrolytic medial septal (MS) lesions, which depleted

225 and thus aggregated upon exposure to a high electrolytic medium.

226 rement (ECM) conducted on the solid ice, and electrolytic meltwater conductivity, EMWC.

227 t atop a titanium scaffold using the thermal-electrolytic method and the use of these Ti/Ag/AgCl cons

228 Cl-coated silver fabricated with the thermal-electrolytic method can be used to prepare more reproduc

229 o stabilize Zn anode, we report a controlled electrolytic method for a monolithic solid-electrolyte i

230 Electrolytic microlesions aimed at the dorsomedial porti

231 pendence of these pathways in mice by making electrolytic microlesions of the two inferior olivary nu

232 metric sensitivity to humidity comparable to electrolytic MnO2 and 17 times lower than the monolithic

233 Therefore, the effects of electrolytic MS lesions derive from the resulting combin

234 Experiment 3 tested the effects of electrolytic MT lesions on escape/avoidance behavior in

235 Experiment 2 tested the effects of electrolytic MT lesions on mechanical paw withdrawal thr

236 3(B)Fe(+) at -45 degrees C demonstrates that electrolytic N2 reduction to NH3 is feasible.

237 in the lateral hypothalamus (LH) but neither electrolytic nor pharmacological lesions of this or any

238 Unilateral electrolytic or cytochemical lesions placed in the thala

239 d a rodent model of CPS by making unilateral electrolytic or demyelinating lesions centered on the sp

240 To test this hypothesis, bilateral electrolytic or excitotoxic ibotenic acid MG nuclear les

241 After both electrolytic or neurotoxic lesions of the AD, no cells w

242 To test this hypothesis, we produced electrolytic or neurotoxic lesions of the IPN and record

243 Rats with electrolytic or neurotoxic lesions of the POR or PER wer

244 he first three experiments, rats with either electrolytic or NMDA lesions of the dorsal hippocampus a

245 nderwent sham surgery (SH), bilateral BX, or electrolytic or radiofrequency lesions of the: medial nu

246 and at 14-15 days of age received bilateral electrolytic or sham lesions aimed at the MPOA.

247 Rabbits received electrolytic or sham lesions of the ventral subiculum fo

248 ght times the Earth's gravity) and show that electrolytic oxygen production is reduced by around 11%

249 Conversely, the electrolytic pathway faces significant economic challeng

250 The electrolytic phase transformation actuator offers a new

251 ciatic nerve in rats by an implanted organic electrolytic photocapacitor that transduces deep-red lig

252 d as an electrolyte for microbially assisted electrolytic production of H2 and OH(-) at the cathode a

253 mise is undermined by the strongly oxidative electrolytic protocol used traditionally since the ninet

254 ter dissociation/recombination reactions and electrolytic proton transport, provide unprecedented ins

255 Electrolytic reactions between plasma electrons and aque

256 lky ions with lower ionic potentials impedes electrolytic reactions by frustrating the solvation of p

257 ide evidence that, during the ES ionization, electrolytic reactions occur mainly in the ES tip region

258 This paper discusses the electrolytic reactions that can potentially enable renew

259 r respective hydration structures, enhancing electrolytic reactions via an inductive effect, particul

260 Using flow-through electrolytic reactors equipped with Ti/IrO2-Ta2O5 mesh e

261 ne, up to 4.6 times higher than noncatalyzed electrolytic reactors.

262 lfide bonds of insulin were fully cleaved by electrolytic reduction and both the A and B chains of th

263 In this approach, proteins undergo electrolytic reduction in an electrochemical cell to bre

264 via base addition) or electrochemically (via electrolytic reduction).

265 24 vs 75 backbone cleavages before and after electrolytic reduction, respectively) and lysozyme (5 vs

266 (5 vs 66 backbone cleavages before and after electrolytic reduction, respectively).

267 ubject to pronounced intensity decrease upon electrolytic reduction, suggesting a new way to identify

268 opropanation reaction when subjected to bulk electrolytic reductions.

269 diction sensitivity of about 99-100 % in non-electrolytic rich compounds such as caffeine, tannic aci

270 In addition, no added electrolytic salts are needed in this process.

271 this contribution, a wireless method for the electrolytic sampling of heavy metals at special bismuth

272 The oscillatory behavior is governed by an electrolytic self-diffusiophoretic mechanism which invol

273 In this work, flow electrolytic separation on anodized carbon fibers is exp

274 ven) translocation of the DNA molecule in an electrolytic solution across the membrane through the na

275 hich introduce additional body forces in the electrolytic solution and create new modes of mass trans

276 This device utilizes an electrolytic solution containing the analyte specimen as

277 nize from a distance its homologous match in electrolytic solution without unzipping.

278 e applied at the interface of two immiscible electrolytic solutions (ITIES) in an electrochemical cel

279 Electrolytic spray deposition was used to pattern surfac

280 hydrogen-bonding networks-leading to greater electrolytic stability.

281 oth interface between the TMD and underlying electrolytic substrate.

282 olytically generated hydroxide eluent and an electrolytic suppressor, the eluent is passed into a mem

283 In this study, an innovative microbial electrolytic system was developed to capture, separate a

284 alized wastewater treatment, applications of electrolytic systems for treatment of domestic wastewate

285 ed canine hearts suspended in a torso-shaped electrolytic tank, we simultaneously recorded electrogra

286 ne the electron density from the extremes of electrolytic through to true metallic behavior.

287 As a result, electrolytic treatment followed by fast-scan voltammetry

288 Our findings demonstrate that combining electrolytic treatment with aerobic biodegradation may b

289 by a combination of mechanical polishing and electrolytic treatment, where the latter involved modera

290 The electrolytic upgrading of CO(2) presents a promising str

291 The effects of neurotoxic or electrolytic ventral subicular (vSUB) lesions on the acq

292 We have reexamined the effects of electrolytic vmPFC lesions made before training on the a

293 uction levels (6 mM vs 18 mM for BDD) during electrolytic wastewater treatment.

294 Electrolytic water oxidation using earth-abundant elemen

295 here is the first copper-based catalyst for electrolytic water oxidation.

296 w transition metals to mediate heterogeneous electrolytic water splitting in acidic media by exploiti

297 energy in the form of hydrogen (H2) fuel via electrolytic water splitting requires the development of

298 Despite the widespread interest in electrolytic Zn-MnO(2) batteries with excellent output v

299 Consequently, electrolytic Zn-MnO(2) battery with SF electrolyte can s

300 Benefiting from stable Zn electrodes, the electrolytic Zn||Mn batteries can operate at 1.90 V.