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Items: 1 to 20 of 110

1.

Construction of the tetrahedral trifluorophosphine platinum cluster Pt4(PF3)8 from smaller building blocks.

Hu P, Luo Q, Li QS, Xie Y, King RB, Schaefer HF.

Inorg Chem. 2014 May 19;53(10):5300-10. doi: 10.1021/ic5005243. Epub 2014 May 6.

PMID:
24801934
2.

A structure-based analysis of the vibrational spectra of nitrosyl ligands in transition-metal coordination complexes and clusters.

De La Cruz C, Sheppard N.

Spectrochim Acta A Mol Biomol Spectrosc. 2011 Jan;78(1):7-28. doi: 10.1016/j.saa.2010.08.001. Epub 2010 Aug 17.

PMID:
21123107
3.

Binuclear nickel carbonyl thiocarbonyls: metal-metal multiple bonds versus four-electron donor thiocarbonyl groups.

Zhang Z, Li QS, Xie Y, King RB, Schaefer HF 3rd.

J Phys Chem A. 2010 Feb 18;114(6):2365-75. doi: 10.1021/jp910033v.

PMID:
20104902
5.

Unsaturated platinum-rhenium cluster complexes. Synthesis, structures and reactivity.

Adams RD, Captain B, Smith MD, Beddie C, Hall MB.

J Am Chem Soc. 2007 May 9;129(18):5981-91. Epub 2007 Apr 18.

PMID:
17439219
6.

Effect of hydrogen atoms on the structures of trinuclear metal carbonyl clusters: trinuclear manganese carbonyl hydrides.

Liu XM, Wang CY, Li QS, Xie Y, King RB, Schaefer HF 3rd.

Inorg Chem. 2009 May 18;48(10):4580-91. doi: 10.1021/ic802413c.

PMID:
19371100
7.
8.

Stabilization of binuclear chromium carbonyls by substitution of thiocarbonyl groups for carbonyl groups: nearly linear structures for Cr(2)(CS)(2)(CO)(9).

Zhang Z, Li QS, Xie Y, King RB, Schaefer HF 3rd.

J Phys Chem A. 2010 Jan 14;114(1):486-97. doi: 10.1021/jp9068587.

PMID:
19961211
9.

Prospects for three-electron donor boronyl (BO) ligands and dioxodiborene (B2O2) ligands as bridging groups in binuclear iron carbonyl derivatives.

Chang Y, Li QS, Xie Y, King RB.

Inorg Chem. 2012 Aug 20;51(16):8904-15. doi: 10.1021/ic300893e. Epub 2012 Aug 3.

PMID:
22862812
10.

Trifluorophosphine as a bridging ligand in homoleptic binuclear nickel complexes.

Yang HQ, Li QS, Xie Y, King RB, Schaefer HF 3rd.

J Phys Chem A. 2010 Aug 26;114(33):8896-901. doi: 10.1021/jp103051s.

PMID:
20524679
11.

Iron carbonyl thiocarbonyls: effect of substituting a thiocarbonyl group for a carbonyl group in mononuclear and binuclear iron carbonyl derivatives.

Zhang Z, Li QS, Xie Y, King RB, Schaefer HF.

Inorg Chem. 2009 Mar 2;48(5):1974-88. doi: 10.1021/ic8016276.

PMID:
19235959
12.

Unsaturated trinuclear iron fluoroborylene complexes.

Xu L, Li QS, King RB.

J Mol Model. 2017 Apr;23(4):123. doi: 10.1007/s00894-017-3301-4. Epub 2017 Mar 17.

PMID:
28315080
13.
14.

Versatile behavior of the fluorophosphinidene ligand in iron carbonyl chemistry.

Zhou L, Li G, Li QS, Xie Y, King RB.

Inorg Chem. 2011 Dec 19;50(24):12531-8. doi: 10.1021/ic201490m. Epub 2011 Nov 18.

PMID:
22098530
15.
16.

Boronyl ligand as a member of the isoelectronic series BO(-) → CO → NO(+): viable cobalt carbonyl boronyl derivatives?

Gong X, Li QS, Xie Y, King RB, Schaefer HF 3rd.

Inorg Chem. 2010 Dec 6;49(23):10820-32. doi: 10.1021/ic101215v. Epub 2010 Nov 10.

PMID:
21067156
17.

From two-electron via four-electron to six-electron donor carbonyl groups in trinuclear derivatives of the oxophilic metal niobium.

Peng B, Li QS, Xie Y, King RB, Schaefer HF 3rd.

Dalton Trans. 2009 May 21;(19):3748-55. doi: 10.1039/b819180h. Epub 2009 Mar 18.

PMID:
19417940
18.

Mononuclear and binuclear rhenium carbonyl nitrosyls: comparison with their manganese analogues.

Xu B, Li QS, Xie Y, King RB, Schaefer HF 3rd.

Inorg Chem. 2008 Nov 3;47(21):9836-47. doi: 10.1021/ic800681y. Epub 2008 Sep 30.

PMID:
18823112

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