ライフサイエンスコーパス: dichloride

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

2 etium-177 ((177)Lu) PSMA RLT, and radium-223 dichloride.

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

4 obenzylnaphthols with chloromethylphosphonic dichloride.

5 duced by intravenous injection of dibutyltin dichloride.

6 anone enol ether or enol silane with malonyl dichloride.

7 went subsequent complexation with dibutyltin dichloride.

8 in good to excellent yields with phenylboron dichloride.

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

10 reagents and readily available phosphonic(V) dichlorides.

11 emical stability in comparison to the parent dichlorides.

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

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

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

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

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

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

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

19 (223)Ra-dichloride ((223)Ra) and (177)Lu-prostate-specific membr

20 (223)Ra-dichloride ((223)Ra) is an approved therapeutic option f

21 Imaging before (223)Ra-dichloride ((223)Ra) therapy is crucial for selecting me

22 ctor for mCRPC patients treated with (223)Ra-dichloride ((223)Ra).

23 Background: Radium-223 dichloride ([(223)Ra]RaCl2) is the first approved alpha

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

25 Dichloride 6 was isolated from SnCl4 treatment of 1 with

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

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

28 Herbicide paraquat dichloride, a potent redox agent found its way to natura

29 with two important additives, ethylaluminum dichloride and 1-ethyl-3-methylimidazolium bis(fluorosul

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

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

32 es the inexpensive, bench stable zirconocene dichloride, and a novel tetrabutylammonium fluoride acti

33 ed those containing acrylic acid, ethylidene dichloride, and hydroquinone, and they were significantl

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

35 enerated by nitrite reduction at a copper(I) dichloride anion or by nitric oxide addition to a copper

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

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

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

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

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

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

42 bis((3-trimethylammonio) propyl)- ferrocene dichloride (BTMAP-Fc) and bis(3-trimethylammonio) propyl

43 -3-yl)benzoquinones can be obtained from the dichlorides by alkaline hydrolysis.

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

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

46 e findings conclude that, herbicide paraquat dichloride causes inflammation in the ovary, in addition

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

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

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

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

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

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

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

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

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

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

57 A family of metal dichloride complexes having a bis-ferrocenyl-substituted

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

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

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

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

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

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

64 hloride to afford a trivalent phosphine gold dichloride derivative (7) in which the metal atom is cov

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

66 1,1'-di-p-tolyl-(4,4'-bipyridine)-1,1'-diium dichloride (DTV(2+)), was studied in solution and encaps

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

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

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

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

71 ministration-approved alpha-therapy, (223)Ra-dichloride, for treatment of bone metastases in castrati

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

73 Technetium dichloride has been discovered.

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

75 vailable 4,4'-hydrazobis(1-methylpyridinium) dichloride (HydBPyMeCl) is described as a novel two-elec

76 MA RLT in 154 (32%) patients, and radium-223 dichloride in 18 (4%) patients.

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

78 tion of HO-1 inhibitor tin protoporphyrin IX dichloride in infected BALB/c mice led to a decrease in

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

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

81 ,1'-bis(diphenylphosphino)ferrocenepalladium dichloride in the presence of a mild base generates a ch

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

83 nation of C O bonds catalyzed by zirconocene dichloride is reported herein and applied to the site-se

84 ,4-di-Grignard reagents and phosphonous(III) dichlorides is a classical method for the direct synthes

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

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

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

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

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

90 1,1'-Dimethyl-4,4'-bipyridinium dichloride (methyl viologen; paraquat), an herbicide tha

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

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

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

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

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

96 ed the BM-targeting alpha-emitter radium-223 dichloride (Ra223) could target subclinical bone disease

97 rone acetate, enzalutamide, or radium Ra 223 dichloride (radium 223) were enrolled between July 1, 20

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

116 susceptibility measurement shows technetium dichloride to be diamagnetic.

117 R)-2,2-dimethyl-1,3-dioxolane-4,5-dicarbonyl dichloride to give a polymer that shows activity towards

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

119 ne Lewis pair (1) was reacted with germanium dichloride to give in 92% yield a phosphine adduct of a

120 R)-2,2-dimethyl-1,3-dioxolane-4,5-dicarbonyl dichloride to obtain new materials, in what to the best

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

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

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

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

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

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

127 flexible and adaptable to preparing the gem-dichloride variants.

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

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

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

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

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

133 After reduction of this dichloride with strong reductants like the Mg(I) reagent

134 en matrix at 3 K from the reaction of oxalyl dichloride with the urea.hydrogen peroxide complex.

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

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

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

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