ライフサイエンスコーパス: Se

1 Se can induce polymerization of dopamine (in HD conjugat

2 Se-NADES analysis in ICP MS was optimized according to t

3 Se-NADES extraction was optimized by an experimental des

4 Se-Te generated with static illumination exhibited a hig

5 cient of ~ -230 muV K(-1) in Pb(0.98)Bi(0.02)Se is close to the golden range, leading to a figure of

6 ectures that are built from rod-shaped Co(12)Se(16)(PEt(3))(10) and C(140) nanoclusters.

7 Se(3) )(N) or ( /Bi(2) Se(3) )-(Bi(2) /Bi(2) Se(3) )(N) (N is the repeating unit, represents an empty

8 lattice, (Bi(2) /Bi(2) Se(3) )-(Bi(2) /Bi(2) Se(3) )(N) or ( /Bi(2) Se(3) )-(Bi(2) /Bi(2) Se(3) )(N)

9 Se(3) )-(Bi(2) /Bi(2) Se(3) )(N) or ( /Bi(2) Se(3) )-(Bi(2) /Bi(2) Se(3) )(N) (N is the repeating uni

10 d-dimensional TI-superlattice, (Bi(2) /Bi(2) Se(3) )-(Bi(2) /Bi(2) Se(3) )(N) or ( /Bi(2) Se(3) )-(Bi

11 In contrast, the Bi(2) Se(3) -terminated superlattice is identified as a dual T

12 a Schottky heterojunction between the Cu(2) Se host matrix and in-situ-formed BiCuSeO nanoparticles.

13 Here, it is shown that Cu(2) Se is stabilized through regulating the behaviors of Cu(

14 rthermore, incorporation of BiCuSeO in Cu(2) Se optimizes the carrier concentration and intensifies p

15 nterface and hence stabilizes the beta-Cu(2) Se phase.

16 Here, the fabrication of monolayer Cu(2) Se, a new 2D material is reported, demonstrating the exi

17 electrons transferring from BiCuSeO to Cu(2) Se, obstructing the reduction reaction of Cu(+) into Cu

18 of ~1.5 between 400 and 973 K for the Cu(2) Se/BiCuSeO composites.

19 e microporous host, which transforms to K(2) Se by a two-step conversion reaction via an "all-solid-s

20 ction, the generation of polyselenides (K(2) Se(n) , 3 <= n <= 8) is effectively suppressed by electr

21 2D Bi(2) O(2) Se arrayed sensors integrated in parallel form are found

22 layer formed on the surface of 2D Bi(2) O(2) Se exposed to oxygen, which contributes to larger specif

23 nvolving ease integration show 2D Bi(2) O(2) Se is an ideal candidate for trace oxygen detection.

24 n 2D high-mobility semiconducting Bi(2) O(2) Se nanoplates.

25 Such 2D Bi(2) O(2) Se oxygen sensors have remarkable oxygen-adsorption indu

26 f the doped topological insulators Nb(x)Bi(2)Se(3) and Cu(x)Bi(2)Se(3) reveal that this symmetry brea

27 cal insulators Nb(x)Bi(2)Se(3) and Cu(x)Bi(2)Se(3) reveal that this symmetry breaking occurs at [Form

28 uperconducting single crystal of Sr(0.1)Bi(2)Se(3), a prime candidate for realizing topological super

29 ity by doping the topological insulator Bi(2)Se(3), we find that there exist highly anisotropic phono

30 pulation of surface THz conductivity in Bi(2)Se(3).

31 tric and non-piezoelectric phases in CuInP(2)Se(6), forming unusual domain walls with enhanced piezoe

32 , Se(IV) was first converted to volatile H(2)Se.

33 Here we report on the semiconductor LiInP(2)Se(6) and demonstrate its potential as a candidate mater

34 hat the compact two-dimensional (2D) LiInP(2)Se(6) detectors resolved the full-energy peak with an en

35 d using (6)Li-enriched (95 per cent) LiInP(2)Se(6) detectors with full-peak resolution.

36 onnect pairs of Bi(2)O(2) layers in Bi(2)O(2)Se and the terminal chloride sites that produce the van

37 the bonding network connecting the Bi(2)O(2)Se units to allow exfoliation of Bi(4)O(4)SeCl(2) to 1.4

38 etains the electronic properties of Bi(2)O(2)Se while reducing the dimensionality of the bonding netw

39 mensionally connected semiconductor Bi(2)O(2)Se.

40 Low-cost Sb(2)Se(3) can thus be an attractive breakthrough material fo

41 The Sb(2)Se(3) photocathode exhibits a high photocurrent density

42 er splitting by combining the optimised Sb(2)Se(3) photocathode with a BiVO(4) photoanode, achieving

43 Herein, we report a Sb(2)Se(3) semiconductor that satisfies most requirements for

44 Strong anisotropy, a major issue for Sb(2)Se(3), is resolved by suppressing growth kinetics via cl

45 The optimized alloy, Ge(2)Sb(2)Se(4)Te(1), combines broadband transparency (1-18.5 mum)

46 the topological surface states in Bi(2)Te(2)Se thin films with large tunability using varied gate vo

47 ion should occur, and hetero-pairs Sb(2)Te(2)Se/BiTeCl, Hf(2)N(2)I(2)/Zr(2)N(2)Cl(2), and LiAlTe(2)/B

48 hs were qHBcrAg <6.5 log10 U/mL at month 24 (Se, 1; Sp, 0.58) and baseline qAnti-HBc >=4.1 log10 Paul

49 omagnification in aquatic food webs; and (3) Se inhibits Hg bioavailability to, and/or methylmercury

50 analogue of the recently reported bulk Pb(3)Se(2)Br(2) phase.

51 directly: 1) the synthesis of molecular P(4) Se(3) and subsequent reaction with a copper precursor, (

52 eds that in the non-SC (NS) sample, K(2)Fe(4)Se(5), which indicates a weaker hybridization between th

53 tically at 13 K (GaV(4)S(8)) and 18 K (GaV(4)Se(8)), while the intermediate compounds exhibit a spin-

54 rast to the end members GaV(4)S(8) and GaV(4)Se(8), that undergo a structural transition to the R3m s

55 pressure structure consists primarily of P(4)Se(3) molecules and planar edge shared phosphorus rings,

56 ning of the P(3) ring at the base of the P(4)Se(3) molecules and subsequent reaction with red phospho

57 or the formation of a layered (Pb(0.5)Sn(0.5)Se)(1+delta)(TiSe(2)) (m) heterostructure, where m is th

58 SrTiO(3), but are absent when more than 50% Se atoms are replaced by Te atoms.

59 ductance of vortex bound states on FeTe(0.55)Se(0.45) superconductors.

60 supports the existence of MZMs in FeTe(0.55)Se(0.45).

61 selenide glass of composition Ge(2.8)P(57.7)Se(39.5) is determined as a function of pressure from am

62 ignificant role in the carbene-selenium (77) Se NMR chemical shift, thus triggering a non-linear beha

63 rate and precise determination of (82)Se/(78)Se isotope ratio in natural samples of environmental and

64 Delta values of the (82)Se/(78)Se isotope ratio were measured in selenium-enriched yeas

65 Ir(2)In(8)Se and Ir(2)In(8)Te crystallize in the P4(2)/mnm space g

66 1/6b* and q = 1/10a* + 1/10b* for Ir(2)In(8)Se and Ir(2)In(8)Te, respectively) low-temperature phase

67 he accurate and precise determination of (82)Se/(78)Se isotope ratio in natural samples of environmen

68 Delta values of the (82)Se/(78)Se isotope ratio were measured in selenium-enrich

69 criteria were met for n=248 patients with a Se of 79% (95%CI: 0.72-0.85) and a NPV of 87% (95%CI: 0.

70 light on the properties of vapor-deposited a-Se glasses at a range of substrate temperatures and depo

71 In amorphous selenium (a-Se) both the structure and dynamics of the surface can b

72 applications, such as amorphous selenium (a-Se), have usable sensitivities of up to only 30 keV.

73 d to glasses deposited in the dark, stable a-Se glasses formed under white light have reduced thermal

74 d Stagonospora sp., we observed that aerobic Se(IV and VI) bioreduction to Se(0) and Se(-II) occurs s

75 model shows good agreement with the aerosol Se observations (R(2) = 0.66), as well as with independe

76 ically active elements can drastically alter Se oxidation state and form, impacting its bioavailabili

77 principle calculations confirms an amorphous Se atomic layer formed on the surface of 2D Bi(2) O(2) S

78 obic Se(IV and VI) bioreduction to Se(0) and Se(-II) occurs simultaneously alongside the opposite red

79 a weaker hybridization between the Fe 3d and Se 4p states in SC samples.

80 ented the development of a method for As and Se determination in crude palm oil samples by hydride ge

81 se and raffinose, elements Ba, Sr, P, Cd and Se, and delta(13)C values of honey, have different conce

82 ed with either OM or IM (Fe, Zn, Mn, Cu, and Se).

83 Solvent effects and Se precursor reactivities were elucidated and were key t

84 7% RSD for 2 ug L(-1) (n = 10) of As, Hg and Se, respectively.

85 .72, 0.12, and 1.5 mug L(-1) for As, Hg, and Se, respectively.

86 on the basis of Se:Hg ratios or for applying Se amendments to remediate Hg-contaminated ecosystems.

87 ing 16 variables (Na, Mg, Al, V, Co, Ni, As, Se, Rb, Sr, Mo, Hg, delta(2)H, delta(18)O, delta(13)C an

88 al content (P, S, K, Mn, Fe, Ni, Cu, Zn, As, Se, Mo, Cd, Hg, Pb) in brown rice, rice bran and the res

89 However, estimates of global atmospheric Se fluxes are highly uncertain.

90 t the role of the ocean as a net atmospheric Se sink, with around 7 Gg yr(-1) of Se transferred from

91 inties, we use a global model of atmospheric Se cycling and a database of more than 600 sites where S

92 ubstituted carboranes containing B-O, B-S, B-Se, B-Te, and B-C bonds.

93 Biofilm Se concentration increased (p = 0.006) with mining exten

94 Insect and spider Se increased with biofilm Se (p = 0.004, p = 0.003), reaching 95 and 26 mug/g of d

95 the literature, regularly exceeding the bird Se dietary risk threshold of 5 mug/g of dw.

96 collected near industries revealed that both Se and As deposition have declined in recent years.

97 ol (CBD) and terpenoids were not affected by Se.

98 sed by electrochemical reaction dominated by Se(2) molecules, thus significantly enhancing the utiliz

99 urrently, millions of people are impacted by Se deficiency or toxicity, and in geologic history, seve

100 An attractive strategy for C-Se bond formation by Ullmann-type copper(I)-promoted cro

101 embryos, with predominant Se speciation in C-Se-C forms (57-75% in leaf and more than 86% in seeds).

102 loiting phosphine-induced homolysis of the C-Se and C-S bonds of selenocysteine and cysteine, respect

103 presence of p-toluenesulfonic acid for the C-Se bond formation process.

104 oyed for rice fortification with Fe, Zn, Ca, Se, I, vitamins and other micronutrients.An in-depth ana

105 The as-prepared selenium-carbon (Se@Co(SA)-HC) cathodes deliver a high discharge capacity

106 units without uncontrolled deposition of Cd-Se species.

107 urning (K, PO(4)(3-)), Sea Spray (Na, Cl(-), Se), Anthropogenic Trace Metals (Sb, As, Zn, Cd, Pb, Na)

108 mic plants were produced that lacked cognate Se Rubisco small subunits (SSU) and expressed the Se LSU

109 to form large aggregates without the cognate Se SSU in planta, harboring active Rubisco that enables

110 ower pace than plants expressing the cognate Se SSU.

111 The constrained Se emissions represent a substantial step forward in und

112 Elucidating this cryptic Se cycle is essential for understanding and predicting S

113 ucial in 5 x 5 Fe vacancy-ordered Fe(4+delta)Se(5) at low temperatures.

114 Fe(4+delta)Se(5) compound has been identified as the parent phase o

115 udied the electrical transport of Fe(4+delta)Se(5) single-crystal nanowires exhibiting 5 x 5 Fe-vacan

116 the ameliorating benefits of Se: (1) dietary Se reduces MeHg toxicity in consumers; (2) environmental

117 steine (1:1-3 ratio), both excellent dietary Se sources.

118 diphenyl trisulfide-selenium nanowire (DPTS-Se) organic-inorganic hybrid cathode material is present

119 insects and if these insects were effective Se biovectors to riparian spiders.

120 ylamino) cyclopropenylidene (BAC), elemental Se, Ph(2)CO, PhCH=CHCOPh, and PhCN at room temperature.

121 Phoma glomerata could precipitate elemental Se and Te as nanoparticles, intracellularly and extracel

122 Provided that elevated Se concentrations are also known toxicological threats t

123 igratory minnow, were attributed to elevated Se acquired through maternal transfer and juvenile feedi

124 ss landscapes, tracking exposure to elevated Se is vital to mitigating vulnerabilities.

125 beta-cyanobacterium Synechococcus elongatus (Se) to form aggregated Rubisco complexes with the carbox

126 eHg toxicity in consumers; (2) environmental Se reduces Hg bioaccumulation and biomagnification in aq

127 d continuously from 0.31 eV (Te) to 1.87 eV (Se).

128 Here, thermally evaporated Se(x) Te(1-) (x) alloy thin films with tunable bandgaps

129 mass extinctions have been linked to extreme Se deficiency.

130 Moco affords a unique probe wherein local Fe-Se interactions can be directly interrogated via high-en

131 Moreover, the nearest-neighbor Fe-Se bond length in SC samples exceeds that in the non-SC

132 N -doped porous carbon nanofibers thin film (Se@NPCFs) as cathode.

133 ere between <LOQ - 1.3 for As and 3.0-15 for Se.

134 as well as informing applied approaches for Se and Te immobilization, biorecovery or bioremediation.

135 We conclude that hemp has good potential for Se phytoremediation while producing Se-biofortified diet

136 , the SSB alone could not be recommended for Se isotope analysis as it produces inaccurate and imprec

137 ta about the bioaccessibility of Se-AAs from Se-Chlorella are completely missing.

138 N(-) in water samples with a LOD of 0.1 ng/g Se.

139 s replacing state-of-the-art CdS in Cu(In,Ga)Se(2) thin-film solar cells, alternatives rarely exceed

140 orption spectroscopy on the immobilized GlcP(Se) We found that Asp(22) has a pK(a) of 8.5 +/- 0.1, a

141 sp(22) is the proton-binding residue in GlcP(Se) and show that charged residues in its vicinity affec

142 residue for the transport mechanism of GlcP(Se) A neutral replacement of the negatively charged Asp(

143 ) is part of the proton-binding site of GlcP(Se) and crucial for the glucose/H(+) co-transport mechan

144 cus epidermidis glucose/H(+) symporter (GlcP(Se)) is a membrane transporter highly specific for gluco

145 rial GLUT homologs (for example, XylE), GlcP(Se) has a loose H(+)/sugar coupling.

146 mine the probability distributions of global Se emissions from the four major sources: anthropogenic

147 ial step forward in understanding the global Se cycle.

148 hough differences were undetectable in gross Se and Te ore levels before and after fungal interaction

149 Mg); Boletus edulis (edible) (K > Cu > Zn > Se > Na > Mg); Boletus mirabilis (edible) (K > Cu > Zn >

150 HD/Se gel was fabricated by covalent bonding of dopamine gr

151 HD/Se/ICG gel structure was remained in the mouse for 2 wee

152 HD/Se/ICG hydrogel structure can be introduced as a promisi

153 ICG can be entrapped in the crosslinked HD/Se hydrogel network and long lasting photothermal effica

154 Controlled rheological properties of HD/Se/ICG gel may provide easy injectability and slow biode

155 Intratumoral injection of HD/Se/ICG gel with NIR laser irradiation provided the most

156 s of 16 elements (K, Na, Mg, Ca, Fe, Zn, Hg, Se, As, Cu, Cd, Mn, Ni, Cr, Pb and Co) were determined i

157 microscopy to identify a cryptic, or hidden, Se cycle involving the reoxidation of biogenic volatile

158 A soluble epoxide hydrolase (Se-sEH) of S. exigua was predicted and showed specific e

159 t accommodates thyroxine (T(4)) through an I Se halogen bond to Sec170 and the amino acid group with

160 ed that P. glomerata could effect changes in Se/Te distribution and concentration indicating Se/Te en

161 oth model and measurements show a decline in Se over North America in the last two decades because of

162 times) and Cu (9) and moderately enhanced in Se, Mn, Zn and Cd (2.8-4.0).

163 he working mechanism of the K-ion storage in Se cathode are reported using both experimental and comp

164 the van der Waals gap and soft intralayer In-Se bonding.

165 slip that are mediated by the long-range In-Se Coulomb interaction across the van der Waals gap and

166 to determine whether mining extent increased Se uptake in stream biofilms and insects and if these in

167 Te distribution and concentration indicating Se/Te enrichment in the biomass.

168 ely related to mining extent, aquatic insect Se flux was not associated with mining extent because th

169 We investigated Se concentrations in stream and riparian organisms to de

170 A flexible K-Se battery is prepared by employing the small-molecule S

171 The potassium-selenium (K-Se) battery is considered as an alternative solution for

172 offers a practical pathway to optimize the K-Se battery performance through structure engineering and

173 and effecting the voltage platform of the K-Se battery.

174 s research further demonstrates a durable Li-Se/S pouch cell with high specific capacity, validating

175 commensurately modulated and features linear Se chains and valence-ambiguous Np cations.

176 d thyme showed the highest Na and the lowest Se contents; arsenic and Cd levels were found highest in

177 o the analysis of powdered milk, lyophilized Se-fortified sheep milk, and ERM-BD151 skimmed milk powd

178 isted anti-TB strategy manipulating Ison@Man-Se NPs for synergistic drug-induced and phagolysosomal d

179 Ison@Man-Se NPs preferentially entered macrophages and accumulate

180 Concurrently, Ison@Man-Se/Man-Se NPs also induced autophagy sequestration of Mt

181 Surprisingly, Ison@Man-Se/Man-Se NPs further promoted the fusion of Mtb into ly

182 Concurrently, Ison@Man-Se/Man-Se NPs also induced autophagy sequestration of Mtb, evol

183 Surprisingly, Ison@Man-Se/Man-Se NPs further promoted the fusion of Mtb into lysosomes

184 ides likely play an important role mediating Se biogeochemistry.

185 >=4.1 log10 Paul Ehrlich Institute units/mL (Se, 0.42; Sp, 0.81).

186 gnetic ions occurs solely via addition of Mn-Se units without uncontrolled deposition of Cd-Se specie

187 optical behavior of 2D Janus S-W-Se and S-Mo-Se monolayers under high pressures for the first time.

188 In a batch hydride generation mode, Se(IV) was first converted to volatile H(2)Se.

189 fying the existence of short-chain molecular Se encapsulated inside the microporous host, which trans

190 is prepared by employing the small-molecule Se embedded in freestanding N -doped porous carbon nanof

191 ollowed by an intramolecular oxidative N-S/N-Se bond formation.

192 I(2)-mediated oxidative nitrogen-selenium (N-Se) bond formation.

193 tericidal effects of selenium nanoparticles (Se NPs) against Mtb and further introduce a novel nanoma

194 A mean concentration of 20.1 +/- 1.0 ng Se g(-1) as SELENOP (1.45 mug SELENOP/g) was determined

195 al elements (Ba, Ca, Mg, Sr, Mn, Al, Co, Ni, Se) were marked as characteristic of honey type and allo

196 ospheric Se sink, with around 7 Gg yr(-1) of Se transferred from land through the atmosphere.

197 nstability and the higher earth abundance of Se compared to Te.

198 asurements, it is shown that the bandgaps of Se(x) Te(1-) (x) films can be tuned continuously from 0.

199 fish consumption advisories on the basis of Se:Hg ratios or for applying Se amendments to remediate

200 ns underpinning the ameliorating benefits of Se: (1) dietary Se reduces MeHg toxicity in consumers; (

201 lar uses, data about the bioaccessibility of Se-AAs from Se-Chlorella are completely missing.

202 The simultaneous sensitive determination of Se, Ag, Sb, Pb, and Bi is realized with a sample volume

203 ponsivity position and photoresponse edge of Se(x) Te(1-) (x) film-based photoconductors can be tuned

204 , and potential for a cumulative exposure of Se relevant for conservation.

205 aporation process enables the fabrication of Se(0.32) Te(0.68) -based 42 x 42 focal plane arrays with

206 ce during the radiation induced formation of Se nano-crystallites in pure Se and in binary AsSe(4) gl

207 Between 29 and 36 Gg of Se are emitted to the atmosphere every year, doubling pr

208 muM selenate and accumulated up to 200 mg of Se/kg DW in leaves, flowers, and seeds.

209 to 160 muM and accumulated up to 1300 mg of Se/kg shoot dry weight.

210 recommended daily allowance of 55-75 mug of Se.

211 nd 15-25 mug of Se/g in seed and 5-10 mug of Se/g dry weight (DW) in flowers and leaves.

212 Colorado, United States, found 15-25 mug of Se/g in seed and 5-10 mug of Se/g dry weight (DW) in flo

213 nants to riparian food webs, yet pathways of Se transport and exposure of riparian organisms are poor

214 The precision of Se, Ag, Sb, Pb, and Bi in the present method is evaluate

215 The methods used in production of Se-Chlorella biomass were also investigated.

216 RNAi reduction of Se-sEH interfered with hemocyte-spreading behavior, nodu

217 Risks of Se exposure and toxicity related to mining are thus not

218 neither hydride generation nor separation of Se, was developed.

219 and the atmosphere is an important source of Se to soils.

220 leaves were also moderate dietary sources of Se, Ni, Zn and Ca.

221 n successfully applied for the speciation of Se in a dietary supplement sample and environmental wate

222 than inedible ones, especially for uptake of Se by B. edulis, which was antagonistic with As and Pb i

223 s significantly enhancing the utilization of Se and effecting the voltage platform of the K-Se batter

224 biomass was not related to mining extent or Se concentrations in biofilm.

225 t reaction with a selenium precursor, (Cu-P)+Se.

226 onal minerals (Ca, Cu, Fe, K, Mg, Mn, Na, P, Se and Zn) and trace metals (As, Cd, Pb, U and V).

227 sequent reaction with a copper precursor, (P-Se)+Cu, and 2) the synthesis of copper phosphide, Cu(3)

228 est that during deep charging, the precoated Se will initially substitute some mobile O(alpha) (-) at

229 s essential for understanding and predicting Se behavior in diverse environmental systems.

230 re and in the seed embryos, with predominant Se speciation in C-Se-C forms (57-75% in leaf and more t

231 its superior cycling stability over pristine Se or DPTS as cathode alone.

232 tial for Se phytoremediation while producing Se-biofortified dietary products.

233 ydantoins under mild conditions and provides Se-arylated imidazolines in moderate to high yields.

234 ed formation of Se nano-crystallites in pure Se and in binary AsSe(4) glass-forming liquids near thei

235 we report two new compounds Ir(2)In(8)Q (Q = Se, Te) and compare their structural and electrical prop

236 cological investigations resolve only recent Se exposure.

237 ific uncertainties and gaps remain regarding Se mediation of Hg behavior and toxicity in abiotic and

238 eavier analogues ([RGe(S)(NHC)(2)]X and [RGe(Se)(NHC)(2)]X) demonstrated its classical acylium-like b

239 o, W, Re, Sn, or Pt; X = chalcogen, e.g., S, Se, or Te), TMD heterostructure (WS(2) /MoS(2) ), and an

240 es of the type [RN(E)P(mu-NR)](2) (E = O, S, Se) can exhibit halide binding that is competitive with

241 ons in isochalcogenourea catalysis (Ch=O, S, Se) is investigated.

242 cyclopropanations, C-H and X-H (X = N, O, S, Se, Si, Sn, Ge) functionalizations.

243 nsulators in the Bi(2)X(3) family (X = O, S, Se, Te), are extremely promising for beyond Moore's Law

244 X, where M = Ta, Nb, RE = Sm, La, and X = S, Se.

245 TS), Cu(2)Zn(Ge,Sn)(S,Se)(4) (CZGTS), CuIn(S,Se)(2) (CIS), and Cu(In,Ga)(S,Se)(2) (CIGS).

246 CZGTS), CuIn(S,Se)(2) (CIS), and Cu(In,Ga)(S,Se)(2) (CIGS).

247 Cu(2)ZnSn(S,Se)(4) (CZTS), Cu(2)Zn(Ge,Sn)(S,Se)(4) (CZGTS), CuIn(S,Se)(2) (CIS), and Cu(In,Ga)(S,Se)

248 ocessed photovoltaic devices for Cu(2)ZnSn(S,Se)(4) (CZTS), Cu(2)Zn(Ge,Sn)(S,Se)(4) (CZGTS), CuIn(S,S

249 fferent groups, including C-, Hal-, Si-, S-, Se-, and Sn-substituents.

250 ting aquatic ecosystems with ecosystem-scale Se additions could be a robust solution to Hg contaminat

251 Sodium selenite (Se)-directed crosslinked hydrogels based on hyaluronic a

252 Selenium (Se) deficiency and toxicity affect over a billion people

253 Selenium (Se) is an essential dietary element for humans and anima

254 Selenium (Se) redox chemistry is a determining factor for its envi

255 sumption advisories to co-consider selenium (Se) levels in seafood and implies that remediating aquat

256 rk demonstrates the challenges for selenium (Se) determination in bean samples using high-resolution

257 Incorporation of selenium (Se) atom into small molecules can substantially enhance

258 Toxic levels of selenium (Se) shown to cause deformities in birds, fish, and mamma

259 Microbial reduction of soluble selenium (Se) or tellurium (Te) species results in immobilization

260 nal hazards regression, and the sensitivity (Se) and specificity (Sp) of marker levels in predicting

261 ctroscopies of selenate-supplied hemp showed Se to accumulate mainly in the leaf vasculature and in t

262 emental photocatalysts (i.e. B, C, P, S, Si, Se etc.), binary photocatalysts (i.e. BC(3), B(4)C, C(x)

263 controlling the local composition of the Sn|Se layers in the precursors enables the selective synthe

264 Insect and spider Se concentrations were among the highest reported in the

265 Insect and spider Se increased with biofilm Se (p = 0.004, p = 0.003), rea

266 Selenium bioreduction produced stable Se(0) nanoparticles and organoselenium compounds.

267 ive to the state-of-the-art n-type Bi(2) (Te,Se)(3) thermoelectric alloys.

268 alcogenide superconductors, especially Fe(Te,Se), suffer from strong inhomogeneity which may hamper t

269 The Se limits of detection were found to be 24, 33, and 29 n

270 hybrid enzyme utilizing tobacco SSU and the Se LSU, allowing slow autotrophic growth in high CO(2) C

271 ce its absorption near the bandgap edge, the Se(0.32) Te(0.68) film (an optical bandgap of ~0.8 eV)-b

272 bisco small subunits (SSU) and expressed the Se LSU in place of tobacco LSU, with and without CcmM35.

273 h wild-type tobacco and lines expressing the Se SSU.

274 (IS-SSB), and ORM-SSB were compared for the Se isotope ratio measurements.

275 Plants lacking the Se SSU showed delayed growth, poor photosynthetic capaci

276 These results demonstrate the ability of the Se LSU and CcmM35 to form large aggregates without the c

277 onential decay, depending on the size of the Se nano-crystallites.

278 rystal-melt interface with the growth of the Se nano-crystallites.

279 thus triggering a non-linear behavior of the Se-Scale.

280 le to form large Rubisco aggregates with the Se LSU, and these incorporated small amounts of native t

281 Even though Se concentrations in aquatic insects were significantly

282 embryonic development or accumulate through Se-enriched diets.

283 d that aerobic Se(IV and VI) bioreduction to Se(0) and Se(-II) occurs simultaneously alongside the op

284 rovenance, life stage, and duration of toxic Se exposure over the lifetime of an organism.

285 Plants can mitigate both problems, via Se biofortification and phytoremediation.

286 volving the reoxidation of biogenic volatile Se compounds in the presence of biogenic manganese [Mn(I

287 ycogenic Mn oxides rapidly oxidized volatile Se products, recycling these compounds back to soluble f

288 ational and optical behavior of 2D Janus S-W-Se and S-Mo-Se monolayers under high pressures for the f

289 Trace element concentrations were: Se (28-160 ug/Kg dw); Cr (0.31-4.03 ug/g dw); Ni (0.19-1

290 and a database of more than 600 sites where Se in aerosol has been measured.

291 was investigated including interaction with Se and Te present in sulfide ores from the Kisgruva Prot

292 direct and indirect fungal interactions with Se-/Te-bearing ores.

293 of PO and NO as well as the iron lines with Se line at 196.026 were demonstrated.

294 QDs) with SWIR emission based on Hg(x)Cd(1-x)Se alloy cores red shifted to the SWIR by epitaxial depo

295 The metastable alloy Sn(x)V(1-x)Se(2) was preferentially formed over [(SnSe(2))(0.80)](1

296 ze the characteristics of n-type Pb(1-x)Bi(x)Se thermoelectric materials.

297 lution of the magnetoresistance of Bi(2)Te(x)Se(3-x) for varying chalcogen ratios and constant growth

298 The GaV(4)S(8-y)Se(y) (y = 0 to 8) family of materials have been synthes

299 m and 12 elements (Mg, S, Mn, Fe, Co, Cu, Zn Se, Br, Rb, Mo, and Cs) in less than 250 000 cells.

300 (Mg, P, S, K, Ca, V, Cr, Mn, Fe, Co, Cu, Zn, Se, Br, Rb, Sr, Mo, I, Cs, and Ba) in 10 muL of serum an