{2-(((2-aminoethyl)imino)methyl)-6-bromophenolato-κ3
N,N′,O}iron(III) nitrate, C18H20Br2FeN5O5

Guojun Yu; Jiao Yang; Qiuling Yang; Qiong Wu

doi:10.1515/ncrs-2022-0295

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{2-(((2-aminoethyl)imino)methyl)-6-bromophenolato-κ³ N,N′,O}iron(III) nitrate, C₁₈H₂₀Br₂FeN₅O₅

Guojun Yu , Jiao Yang , Qiuling Yang und Qiong Wu

Veröffentlicht/Copyright: 2. August 2022

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Aus der Zeitschrift Zeitschrift für Kristallographie - New Crystal Structures Band 237 Heft 5

Abstract

C₁₈H₂₀Br₂FeN₅O₅, monoclinic, P2₁/c (no. 14), a = 12.4534(3) Å, b = 10.8106(3) Å, c = 16.0339(4) Å, β = 94.0450(10)°, V = 2153.25(10) Å³, Z = 4, R _gt(F) = 0276, wR _ref(F ²) = 0.0644, T = 170.0 K.

CCDC no.: 2178589

The molecular structure is shown in the figure. Table 1 contains crystallographic data and Table 2 contains the list of the atoms including atomic coordinates and displacement parameters.

Table 1:

Data collection and handling.

Crystal:	Red block
Size:	0.14 × 0.14 mm
Wavelength:	Mo Kα vvradiation (0.71073 Å)
μ:	4.45 mm⁻¹
Diffractometer, scan mode:	Bruker APEX-II, φ and ω
θ _max, completeness:	26.4°, 99%
N(hkl) _measured , N(hkl) _unique, R _int:	18,432, 4359, 0.039
Criterion for I _obs, N(hkl) _gt:	I _obs > 2 σ(I _obs), 3625
N(param)_refined:	280
Programs:	Bruker [1], Olex2 [2], SHELX [3, 4]

Table 2:

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å²).

Atom	x	y	z	U _iso*/U _eq
Br1	0.44504 (2)	0.27792 (3)	0.46978 (2)	0.03645 (9)
Br2	0.83412 (2)	0.66895 (3)	0.67867 (2)	0.03740 (9)
Fe1	0.80676 (3)	0.24426 (3)	0.58941 (2)	0.02212 (9)
O1	0.67991 (13)	0.26419 (17)	0.52060 (11)	0.0278 (4)
O2	0.79868 (13)	0.40098 (16)	0.63919 (10)	0.0251 (4)
N1	0.72060 (16)	0.16425 (19)	0.66806 (13)	0.0247 (5)
N2	0.81762 (16)	0.0750 (2)	0.54060 (13)	0.0286 (5)
H2A	0.8175	0.0795	0.4839	0.034*
H2B	0.8798	0.0378	0.5606	0.034*
N3	0.94614 (16)	0.2197 (2)	0.65596 (13)	0.0257 (5)
H3A	0.9402	0.2455	0.7095	0.031*
H3B	0.9636	0.1379	0.6572	0.031*
N4	0.89309 (15)	0.3198 (2)	0.50900 (12)	0.0240 (5)
C1	0.6718 (2)	0.3491 (3)	0.74151 (15)	0.0282 (6)
C2	0.74007 (19)	0.4321 (2)	0.70010 (15)	0.0249 (5)
C3	0.74207 (19)	0.5557 (2)	0.72885 (16)	0.0270 (5)
C4	0.6818 (2)	0.5962 (3)	0.79215 (17)	0.0361 (7)
H4	0.6857	0.6802	0.8093	0.043*
C5	0.6151 (2)	0.5142 (3)	0.83108 (17)	0.0385 (7)
H5	0.5728	0.5420	0.8744	0.046*
C6	0.6111 (2)	0.3933 (3)	0.80611 (16)	0.0335 (6)
H6	0.5661	0.3374	0.8332	0.040*
C7	0.6667 (2)	0.2188 (2)	0.72282 (16)	0.0274 (6)
H7	0.6199	0.1695	0.7533	0.033*
C8	0.7113 (2)	0.0292 (2)	0.65639 (17)	0.0311 (6)
H8A	0.6403	−0.0001	0.6725	0.037*
H8B	0.7682	−0.0139	0.6915	0.037*
C9	0.7235 (2)	0.0034 (3)	0.56494 (17)	0.0320 (6)
H9A	0.7351	−0.0861	0.5560	0.038*
H9B	0.6579	0.0291	0.5309	0.038*
C10	1.00776 (19)	0.2897 (3)	0.52327 (16)	0.0281 (6)
H10A	1.0523	0.3518	0.4962	0.034*
H10B	1.0229	0.2071	0.5003	0.034*
C11	1.03162 (19)	0.2914 (3)	0.61751 (16)	0.0293 (6)
H11A	1.1029	0.2539	0.6323	0.035*
H11B	1.0326	0.3777	0.6383	0.035*
C12	0.85889 (19)	0.3930 (2)	0.45023 (15)	0.0257 (5)
H12	0.9104	0.4302	0.4172	0.031*
C13	0.66371 (19)	0.3529 (2)	0.46545 (15)	0.0256 (5)
C14	0.7466 (2)	0.4225 (2)	0.43111 (15)	0.0261 (5)
C15	0.7200 (2)	0.5175 (2)	0.37361 (16)	0.0298 (6)
H15	0.7760	0.5630	0.3505	0.036*
C16	0.6143 (2)	0.5464 (3)	0.34995 (17)	0.0342 (6)
H16	0.5977	0.6140	0.3135	0.041*
C17	0.5327 (2)	0.4757 (3)	0.37999 (16)	0.0320 (6)
H17	0.4597	0.4932	0.3627	0.038*
C18	0.55705 (19)	0.3802 (2)	0.43477 (15)	0.0268 (5)
O3	0.91234 (17)	0.31441 (19)	0.83053 (13)	0.0434 (5)
O4	0.95504 (18)	0.4777 (2)	0.90423 (12)	0.0459 (5)
O5	1.02913 (17)	0.4448 (2)	0.78920 (13)	0.0467 (5)
N5	0.96484 (17)	0.4114 (2)	0.84079 (13)	0.0301 (5)

Source of material

The educts 3-bromosalicylaldehyde (0.100 g, 0.5 mmol) and ethylenediamine (0.030 g, 0.5 mmol) were dissolved in 20 mL ethanol. This solution was stirred at room temperature for 24 h. After this, Fe(NO₃)₃·9H₂O (0.303 g, 0.75 mmol) was added to the above solution and the obtained black mixture was further stirred for 24 h and filtered. The acquired black filtrate was sealed in a beaker with parafilm and kept undisturbed at room temperature. The black block crystals of the title compound were afforded after one month by slow evaporation.

Experimental details

X-ray single crystal data was collected on a Bruker SMART APEX II diffractometer with rotating anode source (MoKα radiation, λ = 0.71073 Å) and equipped with an gas-flow apparatus at 148 K. Data reduction was performed using the program SAINT and empirical absorption corrections were made using SADABS [1]. The structure was solved with the Olex2 program [2] as an interface together with the SHELXT and SHELXL programs [3, 4]. All H atoms were placed in geometrically idealized positions and refined using a riding model, with C–H = 0.98 (methylene), 0.95 Å (benzene) and 0.97 Å (methyl); U _iso(H) values were set 1.2 times for H atoms on methylene and benzene.

Comment

Schiff base is a kind of compound compounds characterized by imine functional group, which is usually formed by condensation react of aldehyde or ketone with amino group [5, 6]. This type of compounds is flexible in stereochemistry and has a variety of coordination modes with different metal ions, and most of the obtained complexes exhibits diverse properties [7, 8 and references cited there]. As a part of our current research interest on the exploration of the regulating effect of Schiff base ligands on transition metal complexes [9], [10], [11], herein we report a new Fe(III) complex based on a halogenated Schiff base ligand.

The asymmetric unit is composed of one cationic Fe(III) complex and one nitrate counter-anion (see the figure). The coordination environment of the ion center is defined by two oxygen atoms and four nitrogen atoms from two salen type bromo-substitutional tridentate ligands. The nitrate anion interacts with the cationic complex through electrostatics and through hydrogen bonding. The bond lengths of Fe–O(N) range from 1.8744(17) to 1.999(2) Å, the perpendicular and trans bond angles exhibit a moderate distortion from an ideal octahedral symmetry which range from 84.31(9)° to 94.48(8)°, and 176.30(9)° to 178.33(9)°, respectively.

Corresponding author: Qiong Wu, Department of Chemical Science and Technology, Kunming University, Yunnan, Kunming 65200, P. R. China, Phone: +86 871 65098476, E-mail: wuqiongkm@163.com

Author contributions: All the authors have accepted responsibility for the entire content of this submitted manuscript and approved submission.
Research funding: National Nature Science Foundation of China (No. 31760257, 21761017), the Program for Innovative Research Team (in Science and Technology) in the Universities of Yunnan Province (IRTSTYN), the Recruitment Program of Yunnan Province Experts Provincial Young Talents (2019HB098) and the Ten-Thousand Talents Program of Yunnan Province (YNWR-QNBJ-2018-273).
Conflict of interest statement: The authors declare no conflicts of interest regarding this article.

References

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Received: 2022-06-14

Accepted: 2022-07-04

Published Online: 2022-08-02

Published in Print: 2022-10-26

This work is licensed under the Creative Commons Attribution 4.0 International License.

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{2-(((2-aminoethyl)imino)methyl)-6-bromophenolato-κ3 N,N′,O}iron(III) nitrate, C18H20Br2FeN5O5

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Abstract

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{2-(((2-aminoethyl)imino)methyl)-6-bromophenolato-κ³ N,N′,O}iron(III) nitrate, C₁₈H₂₀Br₂FeN₅O₅