ライフサイエンスコーパス: arsine

1 els of arsenate (As(V)) in drinking water as arsine.

2 throline and L-L is either a phosphine or an arsine.

3 he standard reached with tris-trimethylsilyl arsine.

4 pounds do not form any or only less volatile arsines.

5 ne pressurized under nitrogen and doped with arsine and a propylene real sample from a cracker plant

6 ynthesis of InAs NCs with tris(dimethylamino)arsine and alane N,N-dimethylethylamine as the reducing

7 s at 20 degrees C, a loss of only 25-50% for arsine and stibine and the above-mentioned tin compounds

8 reduces the production of the less volatile arsines and iAs is almost exclusively formed, therefore

9 4,6-triiodobenzene with triphenylphosphine, -arsine, and -stibine provides cocrystals based on I...P,

10 A new triaryl arsine (Ar(3)As)-based metal-organic framework (MOF) nam

11 The molecular structures of the arsine, arsenide, and arsinidene complexes are described

12 ioctylamine coupled with tris(trimethylsilyl)arsine as arsenic precursor and oleic acid as ligand.

13 Here, we present a comprehensive study of arsine (AsH(3) ) on the germanium (001) surface.

14 ) was unambiguously identified together with arsine (AsH(3)) as reaction products.

15 its at ppbv to ppmv levels were obtained for arsine (AsH(3)), phosphine (PH(3)), and hydrogen selenid

16 Fungi produce volatile and toxic arsines, but the physiological roles of arsenic methylat

17 Deprotonation of the yttrium-arsine complex [Cp'3Y{As(H)2Mes}] (1) (Cp'=eta(5)-C5H4Me

18 ries of structurally differentiated cationic arsines containing imidazolium, cyclopropenium, formamid

19 y and that further understanding of biogenic arsine evolution and degradation are required to adequat

20 t hydrogen ions concentration leading to the arsine formation from iAs compounds detected as As(III)

21 Arsine generation is the gateway for several sensitive a

22 cation exchange column connected in series)-arsine generation-ICP-MS system provided complete separa

23 An electrochemical arsine generator (EAG) is especially green: we report he

24 of germanium with the enhanced properties of arsine/germanium chemistry that promises scale-up to lar

25 of monodentate and bidentate phosphines and arsines have been screened in the coupling of alkyl hali

26 ilable chemicals, such as tris(dimethylamino)arsine, have recently emerged as alternative As precurso

27 An arsine in nitrogen standard was used for optimization an

28 is reviewed for the on-demand production of arsine in turnkey electrochemical generators.

29 tes the premise that incorporation of organo(arsines) into MOF scaffolds is a safer and more convenie

30 Arsine is absorbed into a potassium permanganate solutio

31 d C5 positions in good yields, enabled by an arsine ligand and a unique amide-based NBE.

32 he first report on the use of alpha-cationic arsine ligands in catalysis.

33 alladium-based precatalysts and phosphine or arsine ligands were screened to validate the approach ta

34 ective electrochemical hydride generation of arsine over stibine during the deposition step.

35 Phenyl arsine oxide (PAO) is a vesicant, similar to Lewisite, a

36 The arsenical trimethyl arsine oxide accounted for the majority of extractable o

37 Phosphine oxides and arsine oxides are common laboratory reagents with divers

38 In contrast to phosphine oxides and arsine oxides, which are common and exist as stable mono

39 -As intramolecular coupling in the phosphine-arsine peri-substituted acenaphthene 3, affording therma

40 ris-trimethylsilyl (or tris-trimethylgermil) arsine precursors.

41 d a gas-diffusion cell for the separation of arsine prior to its spectrophotometric determination bas

42 ambient temperature seems to cause enhanced arsine release from soils, and potentially also from the

43 arsenic in each subfraction are converted to arsine sequentially by hydride generation at pH 4.50 and

44 iAs forms volatile arsine species with high efficiency when treated with Na

45 ystem with arsenic in situ electroreduced to arsine that is reacted with ozone to emit light.

46 rsine ((TMSi)(3)As) and tris-trimethylgermyl arsine ((TMGe)(3)As), several attempts have been made to

47 senic precursors such as tris-trimethylsilyl arsine ((TMSi)(3)As) and tris-trimethylgermyl arsine ((T

48 emistry of the newly prepared alpha-cationic arsines toward different metal centers and their reactiv