ライフサイエンスコーパス: dichloride

1 d as controls (simazine, maneb, and paraquat dichloride).

2 thylene phosphonic acid (EDTMP), and (223)Ra-dichloride.

3 obenzylnaphthols with chloromethylphosphonic dichloride.

4 duced by intravenous injection of dibutyltin dichloride.

5 anone enol ether or enol silane with malonyl dichloride.

6 went subsequent complexation with dibutyltin dichloride.

7 in good to excellent yields with phenylboron dichloride.

8 in-1-one in one step by reaction with sulfur dichloride.

9 reagents and readily available phosphonic(V) dichlorides.

10 emical stability in comparison to the parent dichlorides.

11 is of gem-diiodides, gem-dibromides, and gem-dichlorides.

12 -di-tert-butylimidazolin-2-iminato) titanium dichloride (1) and dimethyl (2) complexes in the polymer

13 erted to the neutrally charged, solvent-free dichlorides (1-Cl2, 2-Cl2) and slightly more soluble dii

14 d a cascade sequence of reactions leading to dichlorides 10-12 and, after reduction with tributyltin

15 f a thiocarbonate using catalytic dioctyltin dichloride (10 mol%) and a tris(trimethylsilyl)silane-me

16 Air oxidation of an alkaline solution of dichloride 11 produced diketone 18.

17 e(eta5-inden-1-yl)(eta5-inden-2-yl)]titanium dichloride (13).

18 acids 19-22 with methyl- or vinylphosphonic dichlorides 23 or 24 to produce three diastereomeric anh

19 Dichloride 6 was isolated from SnCl4 treatment of 1 with

20 received 2 intravenous injections of (223)Ra-dichloride, 6 wk apart, at 100 kBq/kg of whole-body weig

21 t into the mechanism of action of titanocene dichloride, a chemotherapeutic agent currently in clinic

22 -benzodiazaborole core have used organoboron dichlorides and boronic acids as the boron precursors.

23 of benzimidazoles with oligo(ethyleneglycol) dichlorides and oligo(ethyleneglycol) ditosylates.

24 characteristics and clinical use of (223)Ra-dichloride, and the second will discuss the beta emitter

25 e) congener was developed utilizing disulfur dichloride as a source of disulfur.

26 tophan via a novel application of diselenium dichloride as an electrophilic source of diselenium, and

27 erates at room temperature using dimethyltin dichloride as catalyst and silver oxide as an additive.

28 s(di-tert-butylchlorophosphine)palladium(II) dichloride as the precatalyst.

29 A second polymorph of technetium dichloride, beta-TcCl2, has been synthesized from the re

30 otion can be locked by binding palladium(II) dichloride between the two templates.

31 -3-yl)benzoquinones can be obtained from the dichlorides by alkaline hydrolysis.

32 Bis(neoisomenthylindenyl)zirconium dichloride catalyzes the ethyl addition ring-opening of

33 Bis(neoisomenthylindenyl)zirconium dichloride catalyzes the ethyl addition ring-opening of

34 v.-radiation or by cis-platinum (II) diamine-dichloride (CDDP, or cisplatin), a cancer chemotherapy d

35 ranoside (AraC) and cis-platinum(II)diammine dichloride (cisplatin) also induce gamma-PAK activation.

36 , camptothecin, and cis-Platinum(II)diammine dichloride (cisplatin)).

37 ased sensitivity to cis-platinum(II)diammine dichloride (cisplatin), 4-hydroperoxycyclophosphamide, d

38 HX to produce H2 and the polypyridyl Ni(II) dichloride, closing the photocycle for H2 generation fro

39 ynthesized by reduction of the corresponding dichloride complex and characterized as a ligand-radical

40 dppp)2] (o-dppp = o-(Ph2P)C6H4), a palladium dichloride complex featuring a Lewis acidic trichlorosti

41 Three of the ligands (11a-c), an iron dichloride complex of ligand 11d and two zinc dichloride

42 potentials (E degrees ) of the corresponding dichloride complexes (Cp(R))(2)ZrCl(2) do not correlate

43 Hydrogenolysis of the cyclometalated rhodium dichloride complexes [RhCl(2)[(S,S)-benbox(Me(2))]] (2a-

44 A series of bis(phenoxyketimine)titanium dichloride complexes were synthesized and evaluated as c

45 ichloride complex of ligand 11d and two zinc dichloride complexes, were characterized by X-ray crysta

46 (i.e., zinc, palladium, and platinum) metal dichloride complexes.

47 e derivatives to form methylenebispyridinium dichloride compounds under ambient conditions.

48 e organometallic anticancer agent titanocene dichloride, Cp(2)TiCl(2), is now in phase II clinical tr

49 propenyl)-2,7-diazapyrenium diperchlorate or dichloride depending on whether the DDQ oxidation is fol

50 ve-agent precursor known as methylphosphonic dichloride (dichlor).

51 1,1'-di-p-tolyl-(4,4'-bipyridine)-1,1'-diium dichloride (DTV(2+)), was studied in solution and encaps

52 The reaction was conducted in ethylene dichloride (EDC) and the substrate was taken in excess t

53 esulted in the rapid formation of the Mo(IV) dichloride, (eta(5)-C5Me5)[N(Et)C(Ph)N(Et)]MoCl2 (1), an

54 In the solid state, technetium dichloride exhibits a new structure type consisting of i

55 ith the adoption into practice of radium-223 dichloride for the treatment of bone metastases and with

56 clohexylphosphine)benzylidine ruthenium (IV) dichloride (Grubbs' first-generation catalyst).

57 Technetium dichloride has been discovered.

58 the radioactive therapeutic agent radium-223 dichloride has been recently approved in patients with C

59 ting bis[tri(2-furyl)phosphine]palladium(II) dichloride in a biocompatible poly(lactic-co-glycolic ac

60 tial weight-based administrations of (223)Ra-dichloride in patients with bone metastases due to castr

61 apy and the use of the alpha emitter (223)Ra-dichloride in prostate cancer, primarily to improve surv

62 w transformation of methylene-bis(phosphonic dichloride) into tetrathiobisphosphonate derivatives is

63 ,4-di-Grignard reagents and phosphonous(III) dichlorides is a classical method for the direct synthes

64 ally through the formation of phenylaluminum dichloride, is endothermic by 33 kcal/mol.

65 agent (TMS-CF(3)) to isopropylidene tartaric dichloride, is reported.

66 The aluminum and gallium dichlorides (Mamx)ECl(2)1a (E = Al; 82%) and 1b (E = Ga;

67 Me(2)))(2)]Li(2) and NaBH(4), from which the dichloride [Me(2)Si(Cp(Me(2)))(2)]WCl(2) is obtained via

68 Ring-bridged ansa-zirconocene dichlorides, Me(2)E(R(n)C(5)H(4-n))(2)ZrCl(2) with E = C

69 1,1'-Dimethyl-4,4'-bipyridinium dichloride (methyl viologen; paraquat), an herbicide tha

70 umarin 153 (C153) and 4,4'-dimethyl viologen dichloride (MV(2+)) across the molecular barrier of a ho

71 crystal structures of tetraurea porphyrin 1-dichloride or bisdihydrogenphosphate anion complexes tha

72 oacetate derivatives with either iodobenzene dichloride or iodotoluene difluoride results in gem-dich

73 is demonstrated that a cationic iridium(III) dichloride phenanthroline complex is capable of C-H acti

74 Reactions of unbridged zirconocene dichlorides, (R(n)C(5)H(5-n))(2)ZrCl(2) (n = 0, 1, or 2)

75 Radium-223 dichloride (radium-223) selectively targets bone metasta

76 y longer in patients treated with radium-223 dichloride (radium-223) than in patients treated with pl

77 hase 3 ALSYMPCA trial showed that radium-223 dichloride (radium-223), a targeted alpha-emitter, impro

78 Radium-223 dichloride (radium-223), an alpha emitter, selectively t

79 of BCl3 with alkynes produces monovinylboron dichloride rather than the reported divinylboron chlorid

80 the preparation and use of the novel sulfur dichloride reagent, BocN=SCl2.

81 by treatment of the corresponding phosphorus dichloride RPCl(2) with MgA.3THF, in cold THF (~20% to 3

82 um(II)-tris-4,7-diphenyl-1,10-phenanthroline dichloride (Ru(dpp)(3)Cl(2)) is reported.

83 Sulfur monochloride (S2Cl2) and sulfur dichloride (SCl2) are important precursors of the extrem

84 lene)bis[4-(hydroxyimino)methyl]pyridiniu um dichloride showed that in the presence of 50 microM edro

85 ouble-charged diazoniabicyclo [2.2.2] octane dichloride silica hybrid (Fe3O4@SiO2/DABCO) by Au-S bond

86 te, In(acac)(3), and tin bis(acetylacetonate)dichloride, Sn(acac)(2)Cl(2), at 270 degrees C in 1-octa

87 are proposed as stable and novel isocyanide dichloride synthetic equivalents.

88 characterized model hexakis-imidazole Mn(II) dichloride tetrahydrate were used to calibrate the Mn-im

89 al equivalents of R3 ECl regenerates a metal dichloride that is the precursor for dinuclear dinitroge

90 ]ZrCl2, (S)-7 (Cy = cyclohexyl), zirconocene dichlorides that have an enantiopure methylneopentyl sub

91 study was to evaluate outcome after (223)Ra dichloride therapy ((223)Ra) and to determine whether sk

92 cted to a condensation reaction with malonyl dichloride to afford two cyclo-[2]-malonate tethers that

93 susceptibility measurement shows technetium dichloride to be diamagnetic.

94 sized and found to coordinate with palladium dichloride to give complexes effectively twice the lengt

95 titanium-based MOFs by the use of titanocene dichloride to synthesize COK-69, the first breathing Ti

96 n reaction of sulfur monochloride and sulfur dichloride toward 3-hexyne was explored for the developm

97 lation of Grignard reagents with zirconocene dichloride under a CO atmosphere.

98 mmercially available methylenebis(phosphonic dichloride) under Yoshikawa's reaction conditions.

99 Allylic gem-dichlorides undergo regio- and enanantioselective (er up

100 was attractive, based on the presence of the dichloride unit in TiCl2Cp2 (Cp = eta-C5H5)2, to assume

101 l]-2, 4, -bis(hydroxyimino)methyl pyridinium dichloride was not affected by either ligand.

102 the ligand (imidazolium cyclophane gem-diol dichloride) was assessed by intravenous administration t

103 istant PC and bone metastases during (223)Ra-dichloride were retrospectively analyzed.

104 The reaction of isophthaloyl dichloride with 2-aminopyridine or 2-aminopyrimidine pro

105 Treatment of dimethylmalonyl dichloride with N,N'-bis(2,6-diisopropylphenyl)-N-trimet

106 cluding simple allylic alcohols, deliver syn-dichlorides with exquisite stereocontrol.

107 s, were transformed into the desired vicinal dichlorides with high chemoselectivity.

108 Reduction of group 4 metallocene dichlorides with magnesium in the presence of cyclic dis

109 The reaction of methylene-bis(phosphonic dichloride) with 1,2-ethanedithiol in bromoform in the p