17 results
Order by :
Nb of items :
Vignette

Redetermination of the crystal structure of tetrammineplatinum(II) dichloride – A microporous hydrogen-bonded 3D network exhibiting a temperature-dependent order-disorder phase transition

The title compound [Pt(NH3)4]Cl2 (1), prepared by reaction of (NH4)2[PtCl4] with an excess of NH3 in aqueous solution, was crystallized from water and its structure redetermined by single-crystal X-ray diffraction at four different temperatures in the range from 273 K down to 100 K. 1 is composed of ...

Vignette

Heterodinuclear Diphosphane-Bridged Iron–Platinum Diyne Complexes as Metalloligands for the Assembly of Polymetallic Systems (Fe, Pt, Co)

Treatment of [(OC)3Fe(μ-C=O)(µ-dppm)Pt(PPh3)] (1a) (dppm=Ph2PCH2PPh2) with 1,7-octadiyne affords the isomeric dimetallacyclopentenones [(OC)2Fe(µ-dppm)(µ-C(=O)C{(CH2)4C≡CH}=CH)Pt(PPh3)] (2a) and [(OC)2Fe(µ-dppm)(µ-C(=O)C(H)=C{(CH2)4C≡CH})Pt(PPh3)] (2a′). In a similar manner, the reaction with ...

Vignette

Pollen analysis - Omisalj (Croatia)

Dataset
Collected date : from Jun 2018 ongoing
Labels : I-SITE BFC
Creators : Benjamin Dietre

Pollen analysis conducted in 2018 from a sediment core recovered in 2016 (OMISALJ-2016) at Omisalj, Krk Island.

Vignette

Pollen analysis - Osor (Croatia)

Dataset
Collected date : from Jun 2018 ongoing
Labels : I-SITE BFC
Creators : Benjamin Dietre

Pollen analysis conducted in 2018 from a sediment core recovered in 2016 (OSOR-2016) at Osor, Cres Island.

Vignette

Googlomics: Inferring hidden causal relations between pathway members using reduced Google matrix of directed biological networks

Signaling pathways represent parts of the global biological network which connects them into a seamless whole through complex direct and indirect (hidden) crosstalk whose structure can change during normal development or in a pathological conditions such as cancer. Advanced methods for ...

Vignette

Pollen analyses - Dizy (CH-VD), En Delèze

Dataset
Collected date : from 2015 to 2016

Pollen analyses conducted in 2015 from a sediment core recovered in 2014 (Dizy-2014) at En Delèze, Dizy.

Vignette

Pollen analyses - Les Hôpitaux-Vieux (F-25), La Beuffarde

Dataset
Collected date : from 2017 ongoing
Labels : ZAAJ
Creators : Benjamin Dietre

Pollen analyses conducted in 2017 from a sediment core recovered in 2016 (BEUF-2016) at La Beuffarde, Les Hôpitaux-Vieux.

Vignette

Pollen analyses - Alba-la-Romaine (F-07), La Grande Terre

Dataset
Collected date : from Oct 2015 ongoing
Creators : Benjamin Dietre

Pollen analyses conducted in 2015 from 23 soil samples recovered in 2015 at La Grande Terre, Alba-la-Romaine.

Vignette

Pollen analyses - L'Auberson (CH-VD), Les Araignys

Dataset
Collected date : from 2017 ongoing
Labels : ZAAJ
Creators : Benjamin Dietre

Pollen analyses conducted in 2017 from a sediment core recovered in 2015 (ARA-2015) at Les Araignys, L'Auberson.

Vignette

Pollen analyses - Labergement-Sainte-Marie (F-25), Remoray Lake

Dataset
Collected date : from 2016 ongoing
Creators : Benjamin Dietre

Pollen analyses conducted in 2017 from a sediment core recovered in 2007 (REM-07) at Remoray Lake.

Vignette

Crystal structure of di-[mu]-iodido-bis­[bis(aceto­nitrile-[kappa]N)copper(I)]

The title compound, [Cu2I2(CH3CN)4], exhibits a centrosymmetric Cu2I2 core [Cu...Cu distance = 2.7482 (11) Å], the CuI atoms of which are further coordinated by four mol­ecules of aceto­nitrile. The CuI atom has an overall distorted tetra­hedral coordination environment evidenced by L-Cu-L angles (L ...

Vignette

Crystal structure of di-[mu]-iodido-bis­[(dimethyl sulfoxide-[kappa]O)(tri­phenyl­phosphane-[kappa]P)copper(I)]

The centrosymmetric dinuclear title compound, [Cu2I2(C2H6OS)2(C18H15P)2], represents the first example of a CuI complex ligated by an O-bound dimethyl sulfoxide ligand. In the crystal, the two tetrahedrally coordinated CuI atoms are bridged by two [mu]2-iodido ligands in an almost symmetrical ...

Vignette

Crystal structure of tricarbon­yl([mu]-di­phenyl­phosphido-[kappa]2P:P)(methyl­diphenyl­silyl-[kappa]Si)bis(tri­phenyl­phosphane-[kappa]P)iron(II)platinum(0)(Fe-Pt)

The title compound, [FePt(C12H10P)(C13H13Si)(C18H15P)2(CO)3]·0.5CH2Cl2, represents an example of a phosphido-bridged heterobimetallic silyl complex; these are inter­esting precursors for the coordination and activation of small unsaturated organic mol­ecules. The [mu]2-PPh2 ligand spans the iron and ...

Vignette

Bis{(4-methylthio)phenylthio}methane as assembling ligand for the construction of Cu(I) and Hg(II) coordination polymers. Crystal structures and topological (AIM) analysis of the bonding

The novel 1D coordination polymer (CP) [{Cu(μ2-Br)2Cu}(μ-L2)2] CP2 has been obtained by reaction of the tetrakisthioether p-MeSC6H4SCH2SC6H4SMe-p (L2) with CuBr in a 1:2 metal-to ligand ratio. In contrast to the previously described CP [{Cu(μ2-Br)2Cu}(μ-L1)2] CP1 obtained by reaction of the ...

Vignette

2-(2,2-Dibromo­ethen­yl)thio­phene

The title compound, C6H4Br2S, represents a versatile building block for the preparation of [pi]-conjugated redox-active thienyl oligomers and metal-mediated cross-coupling reactions. This is due to the presence of an electrochemically active thienyl heterocycle and a reactive dibromo­vinyl ...

Vignette

Two-dimensional polymeric [Hg4([mu]2-I)6I2([mu]2-C4S6)]n

The title compound, poly[([mu]2-2H,5H-1,3-dithiolo[4,5-d][1,3]di­thiole-2,5-dithione)hexa-[mu]2-iodido-diiodidotetra­mercury(II)], [Hg4I8(C4S6)]n, represents the first example of a coordination polymer assembled by the [alpha],[alpha]-C4S6 dithione ligand. The HgII ions are four-coordinated in a ...

Vignette

[μ-Bis(diphenylphosphanyl)methane]-tricarbonyl(μ-p-toluenesulfonylmethylisocyanato)(triphenylphosphane)iron-platinum(Fe-Pt)

The title compound, [FePt(C9H9NO2S)(C18H15P)(C25H22P2)(CO)3], represents a rare example of an isonitrile-bridged heterobimetallic complex (here Pt and Fe) and is an inter­esting precursor for the preparation of heterodinuclear [mu]-amino­carbyne complexes, since the basic imine-type N atom of the ...

17 results
Order by :
Nb of items :
About
Terms of use
Contact
© OSU-THETA, CNRS