ライフサイエンスコーパス: heavy metal

1 neous (nonanalyte) substances (e.g., ions of heavy metals).

2 in, fatty acids, minerals) and health risks (heavy metals).

3 itrogen (N), phosphorus (P), sulfur (S), and heavy metals.

4 X-ray fluorescence spectrometry for various heavy metals.

5 stem for real-time monitoring and sensing of heavy metals.

6 pulation of Daphnia magna Straus, (1820), to heavy metals.

7 nology for real-time and online detection of heavy metals.

8 trogen (N), phosphorus (P), sulphur (S), and heavy metals.

9 ative effects induced by chronic exposure to heavy metals.

10 phase extraction of Co(II) as an example of heavy metals.

11 netic objects, such as bio-macromolecules or heavy metals.

12 mulated and actual tap water contaminated by heavy metals.

13 ontributes to the toxic action of individual heavy metals.

14 bacterial resistance to the two most common heavy metals.

15 accumulates in plants following exposure to heavy metals.

16 rabidopsis (Arabidopsis thaliana) exposed to heavy metals.

17 n identified as hyperaccumulators of several heavy metals.

18 the dopant or the ionizing reagent to ionize heavy metals.

19 ispose to neurodegeneration induced by those heavy metals.

20 g exposure to environmental toxicants, e.g., heavy metals.

21 that absorb and tolerate elevated amounts of heavy metals.

22 ction pressures on siderophore production by heavy metals - a detoxifying effect of siderophores, and

23 provides the restricted factors of PAHs and heavy metal acropetal translocation by maize when they c

24 MLCT state photophysics reminiscent of their heavy-metal analogs.

25 itoes, while breeding water was screened for heavy metal and pesticide residue contamination.

26 nds on the microbial Kingdom and the type of heavy metal and that consortia are significantly more re

27 ild requiring no oxidant and no excess toxic heavy metal and the reagent [(13/14)CN]-NCTS is a stable

28 bial populations of the biosensor exposed to heavy metals and a non-exposed (control) biosensor.

29 grown in hydroponic medium supplemented with heavy metals and compared with those grown in a referenc

30 es have investigated the association between heavy metals and hearing loss in a general population th

31 n of petroleum hydrocarbons compounds (PHC), heavy metals and metalloids (HM) in soil.

32 robial expression of genes for resistance to heavy metals and metalloids is usually transcriptionally

33 In practice, a solution of mixed heavy metals and NaCl salts was directly deposited on a

34 s to the fate of other contaminants (such as heavy metals and organic compounds) that may be present

35 tained substantially lower concentrations of heavy metals and organic contaminants in their tissues t

36 such as the removal of low concentrations of heavy metals and organics.

37 he detection of pharmaceuticals, pesticides, heavy metals and other contaminants in water samples in

38 plied in wastewater treatment for removal of heavy metals and other physicochemical parameters.

39 Coal ash disposal exposes communities to heavy metals and particulate matter waste.

40 The nutrients, heavy metals and pesticide concentrations of an imported

41 de, polycyclic aromatic hydrocarbons (PAHs), heavy metals and polychlorinated biphenyls (PCBs) over t

42 ons of eight carcinogen exposure biomarkers (heavy metals and polycyclic aromatic hydrocarbons (PAHs)

43 ue for assessing the bioavailability of soil heavy metals and related ecological risk.

44 Mn oxides control the fate and transport of heavy metals and the cycling of nutrients.

45 - and polyfluoroalkyl substances (PFAS), and heavy metals and urinary levels of phthalate metabolites

46 ical contaminants, (insecticide residues and heavy metals), and natural toxic substances (nitrate, ni

47 sland-4 (SGI-4), which confers resistance to heavy metals, and half of the strains contained the mTmV

48 lines for long-time use until lead or other heavy metals are detected.

49 sents a health risk in humans, although some heavy metals are essential at low concentrations.

50 At sufficiently high concentrations, heavy metals are lethal to honey bees, but little is kno

51 entional pollution monitoring strategies for heavy metals are often costly and unpractical.

52 electrochemical aptasensors for detection of heavy metals are prospected.

53 in the vapor phase, nonvolatile sulfate and heavy metals are retained in the concentrate stream.

54 Allergens, mycotoxins, pesticides and heavy metals are the chemical hazards of kiwifruits.

55 Heavy metals are ubiquitous in nature and being used ext

56 sumed rice brands in Tehran, Iran with three heavy metals: arsenic, lead, and cadmium.

57 heterostructures, which are detected by the heavy metal as peaks or dips in the open-circuit voltage

58 ature, salinity, pH, pressure, UV, X-ray and heavy metals as a result of DNA phophorothioation.

59 Heavy metals (As, Cd, Hg and Pb) were found at low level

60 ymes (lipase and lipoxygenase), contaminants heavy metals (As, Cd, Pb, and Hg), antinutrient phytic a

61 Remarkably, reduction of dominant heavy metals (As, Pb and Zn) and phytic acid were synerg

62 The recoveries of the heavy metals at 250 and 1000 ug/kg spiking levels were r

63 Determination of heavy metals at trace levels has a great deal of importa

64 gh the action of the Zn/Cd transporter HMA3 (Heavy Metal Atpase 3).

65 ce demonstrates effective decontamination of heavy metals, bacteria, and desalination.

66 namics are conventionally controlled through heavy-metal-based spin-orbit coupling(9-11) or tuning of

67 magnitude smaller than that in conventional heavy-metal-based structures, which indicates the ultrah

68 l components in the spectra influencing soil heavy metal bioavailability were identified and used in

69 the potential of DRIFTS for estimating soil heavy metal bioavailability.

70 The thiol-chelating heavy metal cadmium is a highly toxic environmental poll

71 hat treatment of Arabidopsis leaves with the heavy metal cadmium produces time course-dependent chang

72 Long-term exposure to the heavy metals cadmium (Cd) and mercury (Hg) is known to i

73 interference of the sensor was studied with heavy metals (cadmium (Cd), chromium (Cr), lead (Pb), ar

74 ct sucrose solutions contaminated with three heavy metals - cadmium, copper, and lead - as a measure

75 e exposed to unusual forms of stress such as heavy metals, caffeine, and the plasticizer phthalate.

76 versal and robust in magnetic junctions with heavy metal caps across the 5d transition metals and tha

77 exchange resin can be repurposed to extract heavy metal cations from water samples even in the prese

78 dure was successfully applied to analysis of heavy metal cations in natural food and water samples.

79 ficient functionality to enable adsorbent of heavy metals (Cd(2+), Co(2+), Cu(2+), Hg(2+), Ni(2+), an

80 otal and bioaccessible of trace elements and heavy metals (Cd, Cr, Cu, Co, Al, Zn, As, Pb and Fe) in

81 nd acute (10 kGy/h) ionizing radiation (IR), heavy metals (chromium, mercury), elevated temperature (

82 showed significantly high concentrations of heavy metals, compared to those in the control group.

83 contaminants such as salts, detergents, and heavy metal components using solar energy with long-term

84 ly significant correlations between PM10 and heavy metal compounds (other heavy metals (r = 0.43, p =

85 dard methods, predicting the original sample heavy metal concentration generally within an error of 1

86 Fast biosensor response to changes in total heavy metal concentration of a mining rock drainage was

87 ediction models were applied to estimate the heavy metal concentrations in wheat grains in the mid-Ya

88 While heavy metal concentrations met current fertilizer standa

89 The predicted heavy metal concentrations of wheat grain were highly co

90 creasing water temperatures, salinities, and heavy metal concentrations, as well as decreasing dissol

91 Soil contamination by heavy metals constitutes an important environmental prob

92 introduce toxins to consumers in the form of heavy metal contaminants.

93 (based on spectroscopy) for the detection of heavy metal contamination are often very expensive, tedi

94 nly platinum electrodes for the detection of heavy metal contamination in drinking water.

95 Heavy metal contamination in environment and food has at

96 ring through rapid and specific detection of heavy metal contamination in potable water is of paramou

97 Therefore, detection and monitoring of heavy metals contamination are gaining more attention no

98 olar-scale analytes without the radiation or heavy metal content associated with traditional molecula

99 aroma, melissopalynological properties, and heavy metal content of honey produced from different typ

100 However, unrefined magnetite could have high heavy metal contents (e.g., Cr, Zn, Ni, Sn, etc.) and th

101 een employed to predict soil composition and heavy metal contents.

102 The spin Hall effect in heavy metals converts charge current into pure spin curr

103 degrees of contaminant removal for different heavy metals (copper, lead, cadmium) at different initia

104 We studied population level responses to two heavy metals, copper and arsenic, and their binary mixtu

105 onal RecA expression to respond to genotoxic heavy metals (Cr>Cd approximately Pb), and polluted ash

106 y soil organic matters, pH or the other four heavy metals (Cr, Cu, Ni and Zn).

107 Moreover, quantification of the heavy metal Cu(2+)(with a LOD down to 10nM) was performe

108 e extent to which the atomic coefficients of heavy metal d orbitals contribute to the one-electron ex

109 a hyperintensity, lacunae, calcification, or heavy metal deposits.

110 ng-term operation, the sensors are ideal for heavy metal detection of drinking water.

111 demonstrated glucose assay, immunoassay, and heavy metal detection on well-spot C-microPAD and latera

112 nitoring of various substrates; however, for heavy metals detection are still scarce.

113 helatin synthase (PCS) is a key component of heavy metal detoxification in plants.

114 estigate the potential neurotoxic effects of heavy metals enriched in a highly industrialized region

115 ld and a charge current flowing through Ta-a heavy metal exhibiting giant spin Hall effect-is used.

116 D phosphomimetic allele promotes survival of heavy metal exposure and suppresses the Sup35-dependent

117 uotient (HQ) for non-carcinogenic risks from heavy metal exposure was below the threshold limit of 1

118 concentrations of several micronutrients and heavy metals (Fe, Mg, Mn, K, Ca, Na, Zn, Cu, Ni and Cd)

119 gy-efficient means of writing information in heavy metal/ferromagnet (FM) multilayer systems.

120 are derived for the spin-orbit torques in a heavy metal/ferromagnet bilayer geometry, showing in gen

121 based on the spin-orbit torque switching in heavy metal/ferromagnet structures have been proposed wi

122 lar anisotropy magnetic devices comprised of heavy-metal/ferromagnet or topological-insulator/ferroma

123 c devices, currently accessible in ultrathin heavy metal/ferromagnetic bilayers and multilayers with

124 As an in-plane charge current flows in a heavy metal film with spin-orbit coupling, it produces a

125 -associated sequence can then be detected by heavy metal (for mass cytometry)- or fluorophore (for fl

126 special emphasis on earth-abundant and toxic heavy metal free compounds.

127 III) chloride (FeTPP) catalyst by colloidal, heavy metal-free CuInS2/ZnS quantum dots (QDs) to reduce

128 Here, we demonstrate that by using heavy-metal-free CuInSe(2) quantum dots, we can address

129 These heavy-metal-free QDs eliminate MDR pathogenic bacteria,

130 ffective removal and recovery of chalcophile heavy metals from aqueous media.

131 (TLSB) nanocomposites can effectively remove heavy metals from aqueous solutions.

132 Many areas have been heavily contaminated by heavy metals from industry and are not suitable for food

133 cyclic aromatic hydrocarbons (PAHs) and five heavy metals from soils to maize at the farmlands with i

134 tical report on the potential health risk of heavy metals from the leather industries in Pakistan bas

135 ealth risks due to excessive exposure to the heavy metals from the leather industries.

136 Heavy metals from urban runoff preserved in sedimentary

137 ore-producing taxa increases along a natural heavy metal gradient.

138 i, as a nontoxic and inexpensive diamagnetic heavy metal, has been used for the fabrication of variou

139 and toxic substances, such as aldehydes and heavy metals, has been reported.

140 detection by the inverse spin Hall effect in heavy metals have not yet been explicitly demonstrated(4

141 growing body of evidence has suggested that heavy metals have ototoxic effects, yet few epidemiologi

142 ed for QD activation, and concern over trace heavy metals, have prevented further translation.

143 as "free" layers in SHO are in contact with heavy metals having large spin-orbital interaction, and,

144 ed by the addition of either of three tested heavy metals (Hg(II), Cr(VI) or Pb(II)) or by organic po

145 nd insert a thin layer of Cu to separate the heavy metal (HM) from the FM to avoid the proximity cont

146 Heavy metal (HM) pollutants can cause serious phytotoxic

147 nt of current-induced spin accumulation in a heavy metal (HM)/ferromagnet (FM) heterostructure can be

148 growing support for a potential link between heavy metal homeostasis and host switching and reveals p

149 The presence of heavy metal in food chains due to the rapid industrializ

150 Heavy metal in rice studies has attracted a greater conc

151 plasma mass spectrometry for the analysis of heavy metals in cocoa beans, cocoa powder and chocolate

152 out to determine the concentrations of some heavy metals in dairy products, collected from five indu

153 r can identify the existence of a variety of heavy metals in drinking water, and the four-electrode s

154 Monitoring of toxic heavy metals in fish samples is a matter of a great impo

155 fractionation of endogen elements and toxic heavy metals in living organisms for biomedical applicat

156 is study was to increase the accumulation of heavy metals in plant foods by the external application

157 Therefore, monitoring the presence of heavy metals in rice and its products is a matter of a g

158 The bioavailability of heavy metals in soil is controlled by their concentratio

159 trode sensor can distinguish lead from other heavy metals in solution.

160 stitching were the principal contributors of heavy metals in the biological entities of the workers.

161 c apparatus with increasing accumulations of heavy metals in the shoots also was observed.

162 sensor through prediction of the presence of heavy metals in urban water and mine spill samples, base

163 es and sensors are used for the detection of heavy metals include spectroscopy and chromatographic me

164 In this study, heavy metals including Cr, Mn, Co, Ni, Cu, Zn, As, and C

165 Some of the heavy metals including Lead (Pb), Mercury (Hg), Arsenic

166 to 10microgml(-1), as well as several other heavy metals, including arsenic, mercury and lead at sim

167 ain elevated levels of biogenic elements and heavy metals, including C (and organic carbon), N, S, Al

168 neuroblastoma cell line, we showed that both heavy metals induce cell death by an apoptotic mechanism

169 In human liver and intestinal cells, heavy metals induced acute toxicity (Cr>Cd>Pb) at concen

170 NP stimulated ROS production, expression of heavy metal-inducible and stress-inducible genes, stress

171 The current flowing through the heavy metal instead of ferromagnetic layer realizes the

172 DMI manifests at metallic ferromagnet/heavy-metal interfaces, owing to inversion symmetry brea

173 To examine the level at which heavy metals interfere with Fe deficiency responses, we

174 Leakage of lead and other heavy metals into drinking water is a significant health

175 f MT owing to increased oxidative stress and heavy metals intoxication.

176 n and discuss their field of application for heavy metal ion removal, as heavy metal ions are the mos

177 ing principle into the field of self-powered heavy-metal-ion detection and removal using the triboele

178 r is taken as a sustainable power source for heavy-metal-ion removal by recycling the kinetic energy

179 Heavy metal ions are non-biodegradable and contaminate m

180 More notably, heavy metal ions are removed effectively by forming hydr

181 application for heavy metal ion removal, as heavy metal ions are the most harmful and widespread con

182 imultaneous determination of trace levels of heavy metal ions by anodic stripping voltammetry (ASV).

183 n emerging and promising diagnostic tool for heavy metal ions detection.

184 hemistry, for efficient remediation of trace heavy metal ions from water.

185 n spectroscopy (ICP/OES) to trace some toxic heavy metal ions in eight select farmed and four select

186 tection signals generated due to presence of heavy metal ions in the solution matrix like current, po

187 ctrochemical biosensors for the detection of heavy metal ions such as Hg(2+), Ag(+), Cu(2+) and Pb(2+

188 approaches to limit the availability of key heavy metal ions such as zinc and iron.

189 ous electrochemical detection techniques for heavy metal ions those are user friendly, low cost, prov

190 or was exploited to detect various light and heavy metal ions with a breakthrough detection limit of

191 ecent trends in electrochemical detection of heavy metal ions with various types of sensing platforms

192 paration and preconcentration method of some heavy metal ions, Cd(II), Cu(II), Ni(II), Pb(II) and Zn(

193 for Parkinson's disease, such as rotenone or heavy metal ions, had only mild or even no impact on alp

194 of sensitive and selective discrimination of heavy metal ions, including lanthanide and actinide salt

195 detect Ni(2+) in the presence of some other heavy metal ions.

196 and reliable techniques for the detection of heavy metal ions.

197 bo-nanosensors can selectively detect common heavy metal ions.

198 the first nonhelical DNA structure driven by heavy-metal ions, thus further contributing to the struc

199 of proximity induced magnetism (PIM) in the heavy metal is unknown.

200 Also, the non-magnetic heavy metal layer can inject a vertical spin current wit

201 butions of the damping and the IDMI from the heavy metal layer on the magnetization reversal and prov

202 nsulating magnetic oxides by using proximate heavy metal layers such as platinum(8-10).

203 s at the interface between ferromagnetic and heavy metal layers with strong spin-orbit coupling, but

204 Heavy metal layers, exemplified by Pt, are known to play

205 used to examine changes in feeding ecology, heavy metal levels associated with life history events a

206 relative abundance of the OsPCS2 gene during heavy metal(loid) stress mitigation in rice plant.

207 ytochelatins, which help in sequestration of heavy metal(loid)s inside the cell vacuole to alleviate

208 For each heavy metal (M), one or two major peaks were observed, w

209 Here we report the SOT-assisted switching in heavy metal/magnetic insulator systems.

210 trochemical aptasensors for the detection of heavy metals (mainly mercury, lead, cadmium, and arsenic

211 Anthropogenic emissions of the toxic heavy metal mercury (Hg) have substantially increased at

212 -contamination by eliminating the release of heavy metals/metal ions.

213 In plants, the excess of several heavy metals mimics iron (Fe) deficiency-induced chloros

214 These results show that the investigated heavy metals modulate Fe deficiency responses at differe

215 ents the development of an online continuous heavy metals monitoring system using optical emission sp

216 roposed for simultaneous preconcentration of heavy metals of lead, arsenic, cadmium, and copper.

217 rigation, this study revealed the effects of heavy metals on PAHs uptake in terms of co-contamination

218 The adverse impacts of heavy metals on the oxidative enzyme and their risks to

219 al-insulator/ferromagnet bilayers, where the heavy metal or topological insulator provides an efficie

220 e adapted for the removal of other hazardous heavy metals or the bio-mining of rare metals.

221 f oil spills, removal of dyes, extraction of heavy metals or toxic anions, and the detection or remov

222 NO(2)(-), NO(x)(-), NH(4)(+), SO(4)(2-), and heavy metals) or in unreacted limestone particles (heavy

223 ported, with preferential uptake of precious heavy metals over other common metals.

224 esized in good yields without the use of any heavy metal oxidants.

225 des, sulfur dioxide, particulate matter, and heavy metals per unit of energy than any other fuel sour

226 recognized medicinal use in the treatment of heavy metal poisonings as well as having potency for red

227 Cadmium is a widespread heavy metal pollutant that may act as an exogenous estro

228 Mercury is a diversely bioaccumulating heavy metal pollutant toxic to all life forms.

229 Arsenic is a highly toxic heavy-metal pollutant which poses a significant health r

230 Heavy metal pollution has shown great threat to the envi

231 Little is known about the history of heavy metal pollution of Russia's Lake Baikal, one of th

232 ple, fast, and inexpensive method to monitor heavy metal pollution that uses cation-exchange resin sa

233 IED) and correlations of PM10 with SO2, NOx, heavy metals, polychlorinated dibenzo-p-dioxins/furan (P

234 It may be contaminated by toxic heavy metals present in water or soil.

235 n mass spectrometry can detect certain toxic heavy metals present in water, using surfactant-metal co

236 dization, denitrification, pathogenesis, and heavy-metal processing.

237 al antiferromagnetic Cr(2)O(3) crystal and a heavy metal (Pt or Ta in its beta phase).

238 monstrate theoretically that a bi-layer of a heavy metal (Pt) and a bi-axial antiferromagnetic (AFM)

239 gated the concentration of potentially toxic heavy metals (PTHM) in groundwater sources (hand-dug wel

240 etween PM10 and heavy metal compounds (other heavy metals (r = 0.43, p = <0.001)), PAHs (r = 0.20, p

241 r thienyl-substituted phenazines without any heavy metals ( Ratzke et al.

242 Tl isotopes as a new tool for understanding heavy metal (re)distribution during anthropogenic and ge

243 Heavy metals released into the environment have a signif

244 Successful application of microorganisms to heavy metal remediation depends on their resistance to t

245 plications including nanomaterial synthesis, heavy metal remediation, and the prevention of weatherin

246 l microorganisms have been widely applied in heavy metal remediation.

247 synthesised materials were tested in heavy metal removal tests using a lead solution, where t

248 Proteomic technologies that use elemental (heavy metal) reporter ions, such as mass cytometry (also

249 threatened by noxious contaminants, of which heavy metals represents an area of growing concern.

250 Heavy metals require careful monitoring due to their tox

251 Current methods for the detection of heavy metals require expensive instrumentation and labor

252 The complex coselection of heavy metal resistance and other types of resistance see

253 s to explain the mystery behind the array of heavy metal resistance determinants dispersed and mainta

254 The roles of heavy metal resistance genes in environmental adaptation

255 gnaling, phage and prophases, antibiotic and heavy metal resistance that might be associated with CM.

256 ion of aromatic compounds, and multidrug and heavy metal resistance.

257 ing solutions and approaches, performed with heavy metal salts, have been developed with the purpose

258 This produced the IMS spectra of several heavy-metal salts, including CdCl2, ZnSO4, NiCl2, HgSO4,

259 Heavy metal sequestration from industrial wastes and agr

260 tings and are associated with the widespread heavy metal soap deterioration, were studied using synch

261 he grids and improved the homogeneity of the heavy metal stain needed to enhance visualization of bio

262 cryogenic conditions without dehydration or heavy metal staining.

263 ns for cell culture, transfection, fixation, heavy-metal staining, embedding in resin, and EM imaging

264 medium (methylcellulose) before introducing heavy metal stains for visualization in small air-dried

265 g an oxidative stress (hydrogen peroxide), a heavy metal stress (arsenite) and an amino acid analogue

266 ubiquitin ligase that connects metabolic and heavy metal stress to cell cycle regulation.

267 ey element for SCF(Met30) disassembly during heavy metal stress.

268 mmetry breaking and spin-orbit coupling by a heavy metal such as Pt.

269 Traditional detection methods for heavy metals such as atomic absorption spectrometry have

270 ous and efficient removal of both inorganic (heavy metals such as Hg(2+), Pb(2+), and Tl(+)) and orga

271 Luminescent complexes of heavy metals such as iridium, platinum, and ruthenium pl

272 capable of immobilizing large quantities of heavy metals, such as nickel, via sorption processes.

273 Both generic and heavy metal switchgrass exhibited statistically signific

274 onsortia are significantly more resistant to heavy metals than pure cultures.

275 ionary principle should be adopted for toxic heavy metals, the pervasive use of Pb and Cd in the enam

276 Unlike other heavy metals, there is no evidence that silver is a cumu

277 the paint and react with pigments containing heavy metals to form soaps.

278 mmonly rely heavily on hypervalent iodine or heavy metals to provide the requisite thermodynamic driv

279 metals) or in unreacted limestone particles (heavy metals) to levels of environmental concern could n

280 only emphasizes the importance of assessing heavy metal toxicities at multiple levels but also provi

281 Heavy metal toxicity is an ecological concern in regions

282 Cationic and heavy metal toxicity is involved in a substantial number

283 ne derivatives and confer protection against heavy-metal toxicity.

284 Several transcripts encoding heavy metal transporters were expressed in hypnozoites a

285 Cadmium (Cd) is a toxic heavy metal ubiquitous in the environment.

286 ir hard axes by the spin orbit torque from a heavy metal under-layer utilizing the giant spin Hall ef

287 nd categorize recent reports on detection of heavy metals using paper-based microfluidic devices on t

288 ironments including exposure to desiccation, heavy metals, UV and Gamma irradiation.

289 We investigated the history of heavy metal (V, Cu, Zn, Cd, Hg, Tl, Pb, U) pollution in

290 ochemical distribution of trace elements and heavy metals via adsorption and coprecipitation.

291 expensive method was developed for detecting heavy metals via the ion mobility spectrometry (IMS) in

292 ation who consumed Thai local rice contained heavy metals was assessed by means of probabilistic appr

293 spin-orbit coupling arises from a proximate heavy metal, we show that in perpendicularly-magnetized

294 No harmful heavy metals were detected in the grain.

295 otal and bioaccessible of trace elements and heavy metals were digested using closed-nitric acid dige

296 Concentration of the toxic heavy metals were successfully determined in 11 differen

297 Hg) is a highly toxic and widely distributed heavy metal, which some Bacteria and Archaea detoxify by

298 technology is promising in the detection of heavy metals with advantages of high sensitivity, specif

299 Asymmetric multilayers of non-magnetic heavy metals with strong spin-orbit interactions and tra

300 or response is attributed to interference of heavy metals with the activity of electroactive microorg