X-ray structure analysis of cubic tetracyanoethylene and the length of the C[triple-bond] N bond. Application of a double-atom refinement method

Little, Robert G.; Pautler, D.; Coppens, P.

doi:10.1107/s0567740871004278

Cited by 96 publications

(66 citation statements)

References 7 publications

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“…The dimensions of the HMB residue are normal and may be compared with those of the free HMB (Brockway & Robertson, 1939) and of the HMB's in the complexes with chloranil (Harding & Wallwork, 1955;Jones & Marsh, 1962) and 1,2,4,5-tetracyanobenzene (Niimura, Ohashi & Saito, 1968). On the other hand, in the TCNE(A) residue the bond distances and angles are somewhat different from the average values found in the free (Bekoe & Trueblood, 1960;Little, Pautler & Coppens, 1971) and complexed TCNE's (Williams & Wallwork, 1967;Ikemoto & Kuroda, 1968;Ikemoto, Yakushi & Kuroda, 1970;Bernstein & Trueblood, 1971); the discrepancies are, however, not fully significant owing to the rather large e.s.d.'s. The TCNE(B) residue will not be discussed because of the imprecise determination.…”

Section: Tn(i) T N(2)contrasting

confidence: 60%

Hexamethylbenzene-tetracyanoethylene (1:1) complex

Saheki¹,

Yamada²,

Yoshioka³

et al. 1976

Acta Crystallogr Sect B

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Abstract. Hexamethylbenzene(HM B)-tetracyanoethylene(TCNE), C12H18.C6N4, triclinic, PT, a=8.868 (5), b=8.820 (4), c=6.705 (4) A, 0~=77.56 (6), /3= 113.18 (6), 7,=119.21 (3) °, Z=I, Dx=l.146 g cm -3. Centrosymmetric planar component molecules are stacked alternately in columns parallel to c. Both molecular planes are perpendicular to c, the interplanar separation being 3.35 A. The TCNE residues are disordered in two perpendicular orientations about the plane normal with relative occupancies of 3 : 1.

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Section: Tn(i) T N(2)contrasting

confidence: 60%

Hexamethylbenzene-tetracyanoethylene (1:1) complex

Saheki¹,

Yamada²,

Yoshioka³

et al. 1976

Acta Crystallogr Sect B

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“…The nodal properties of the LUMO orbital (b2g symmetry in point group D2h ) of neutral TCNE give a 7r-bonding character to the C-CN bond and an antibonding character to C = C and C-=N bonds. Consistent with this view, the present value of the C=C bond of 1.397 À is higher than that found for cubic [ 1.344(3 ) Â] [24] and monoclinic [1.348(2) À] [25] neutral TCNE, indicating a partial negative charge on TCNE.…”

Section: Introductionsupporting

confidence: 83%

Polymorphism in the [(TTF)₂(TCNE)₂] Charge-Transfer Complex

Ciccarese

Clemente

Marzotto

et al. 1995

Microsc. Microanal. Microstruct.

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Abstract. 2014 The reaction between tetrathiafulvalene (TTF) and tetracyanoethylene (TCNE) yields two polymorphs (03B1 and 03B2) both having formula [(TTF)203B4+2(TCNE)203B4-2] with similar molecular structure. Both polymorphs display a stack structure of the type··· (TTF-TTF)(TCNE-TCNE)(TTF-TTF) (TCNE-TCNE)··· but they differ in crystal structure for hydrogen bonding system and lamellar sheets. These two CT complexes possess an high resistivity (~ 109 03A9.cm) and a degree of charge-transfer of 03B4 = 0.54e estimated through the C-S bond length.

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“…For (II), a final refinement was performed with atoms of the cyclophane and TCNE1 (predominant molecule) treated independently with anisotropic thermal parameters while TCNE2 was kept fixed. For both compounds, TCNE: planar model calculated from TCNE crystal structure (Little, Pautler & Coppens, 1971). A coordinate system S is attached to the molecular group and is defined in the following way (see formula): origin, centre of symmetry; x axis, C--C double bond; xy plane, molecular plane of TCNE.…”

mentioning

confidence: 99%