22 research outputs found
Chirality at metal and helical ligand folding in optical isomers of chiral bis(naphthaldiminato)nickel(II) complexes
Enantiopure bis[(R or S)-N-1-(Ar)ethyl-2-oxo-1-naphthaldiminato-Îş2N,O]nickel(ii) complexes Ar = C6H5 (1R or 1S), p-OMeC6H4 (2R or 2S), and p-BrC6H4 (3R or 3S) are synthesized from the reactions between (R or S)-N-1-(Ar)ethyl-2-oxo-1-naphthaldimine and nickel(ii) acetate. Circular-dichroism spectra and their density-functional theoretical simulation reveal the expected mirror image relationship between the enantiomeric pairs 1R/1S and 3R/3S in solution. CD spectra are dominated by the metal-centered Î- or Î-chirality of non-planar four-coordinated nickel, this latter being in turn dictated by the ligand chirality. Single crystal structure determination for 1R and 1S shows that there are two symmetry-independent molecules (A and B) in each asymmetric unit that give a ZⲠ= 2 structure. Two asymmetric and chiral bidentate N^O-chelate Schiff base ligands coordinate to the nickel atom in a distorted square planar N2O2-coordination sphere. The conformational difference between the symmetry-independent molecules arises from the "up-or-down" folding of the naphthaldiminato ligand with respect to the coordination plane, which creates right- (P) or left-handed (M) helical conformations. Overall, the combination of ligand chirality, chirality at the metal and ligand folding gives rise to discrete metal helicates of preferred helicity in a selective way. Cyclic voltammograms (CV) show an oxidation wave at ca. 1.30 V for the [Ni(L)2]/[Ni(L)2]+ couple, and a reduction wave at ca. -0.35 V for the [Ni(L)2]/[Ni(L)2]- couple in acetonitrile
Incorporating the Thiazolo[5,4-d]thiazole Unit into a Coordination Polymer with Interdigitated Structure
The linker 2,5-di(4-pyridyl)thiazolo[5,4-d]thiazole (Dptztz), whose synthesis and structure is described here, was utilized together with benzene-1,3-dicarboxylate (isophthalate, 1,3-BDC2â) for the preparation of the two-dimensional coordination network [Zn(1,3-BDC)Dptztz]¡DMF (DMF = dimethylformamide) via a solvothermal reaction. Compound [Zn(1,3-BDC)Dptztz]¡DMF belongs to the class of coordination polymers with interdigitated structure (CIDs). The incorporated DMF solvent molecules can be removed through solvent exchange and evacuation such that the supramolecular 3D packing of the 2D networks retains porosity for CO2 adsorption in activated [Zn(1,3-BDC)Dptztz]. The first sorption study of a tztz-functionalized porous metal-organic framework material yields a BET surface of 417 m2/g calculated from the CO2 adsorption data. The heat of adsorption for CO2 exhibits a relative maximum with 27.7 kJ/mol at an adsorbed CO2 amount of about 4 cm3/g STP, which is interpreted as a gate-opening effect
The Ugi four-component reaction as a concise modular synthetic tool for photo-induced electron transfer donor-anthraquinone dyads
Phenothiazinyl and carbazolyl-donor moieties can be covalently coupled to an anthraquinone acceptor unit through an Ugi four-component reaction in a rapid, highly convergent fashion and with moderate to good yields. These novel donorâacceptor dyads are electronically decoupled in the electronic ground state according to UVâvis spectroscopy and cyclic voltammetry. However, in the excited state the inherent donor luminescence is efficiently quenched. Previously performed femtosecond spectroscopic measurements account for a rapid exergonic depopulation of the excited singlet states into a charge-separated state. Calculations of the Gibbs energy of photo-induced electron transfer from readily available UVâvis spectroscopic and cyclovoltammetric data applying the Weller approximation enables a quick evaluation of these novel donorâacceptor dyads. In addition, the X-ray structure of a phenothiazinylâanthraquinone dyad supports short donorâacceptor distances by an intramolecular Ď-stacking conformation, an important assumption also implied in the calculations of the Gibbs energies according to the Weller approximation
Levels of natural radioactivity in mineral and thermal waters of Bosnia and Herzegovina
With gamma spectrometric method 23 samples of mineral and thermal waters of Bosnia and Herzegovina
were analyzed. Activity concentrations of the investigated radionuclides were in the range 12â346 mBq¡L-1
for 40K, 1.1â791 mBq¡L-1 for 226Ra, 0.2â221 mBq¡L-1 for 228Ra, 13â367 mBq¡L-1 for 238U, and 0.6â17 mBq¡L-1 for
235U. For all investigated radionuclides annual effective dose was estimated. The estimated total annual committed
effective dose received by population as a result of ingestion of water was in the range 0.11â2.51 ÎźSv¡y-1
for thermal water and in the range 0.11â38.8 ÎźSv¡y-1 for mineral water. Measurement of activity concentrations
of natural radionuclides in the examined samples was carried out with a gamma-spectrometer with high-purity
germanium (HPGe) detector, having a relative efficiency of 70%
MetalâOrganic Frameworks with Internal Urea-Functionalized Dicarboxylate Linkers for SO<sub>2</sub> and NH<sub>3</sub> Adsorption
Introduction
of a urea RâNHâCOâNHâR group as a seven-membered
diazepine ring at the center of 4,4â˛-biphenyl-dicarboxylic
acid leads to a urea-functionalized dicarboxylate linker (L1<sup>2â</sup>) from which four zinc metalâorganic frameworks (MOFs) could
be obtained, having a {Zn<sub>4</sub>(Îź<sub>4</sub>-O)Â(O<sub>2</sub>Câ)<sub>6</sub>} SBU and IRMOF-9 topology (compound
[Zn<sub>4</sub>(Îź<sub>4</sub>-O)Â(L1)<sub>3</sub>], <b>1</b>, from dimethylformamide, DMF) or a {Zn<sub>2</sub>(O<sub>2</sub>Câ)<sub>4</sub>} paddle-wheel SBU in a 2D-network (compound
[Zn<sub>2</sub>(L1)<sub>2</sub>(DEF)<sub>2</sub>¡2.5DEF], <b>2</b>, from diethylformamide, DEF). Pillaring of the 2D-network
of <b>2</b> with 4,4â˛-bipyridine (bipy) or 1,2-bisÂ(4-pyridyl)Âethane
(bpe) gives 3D frameworks with rhombohedrally distorted <b>pcu-a</b> topologies ([Zn<sub>2</sub>(L1)<sub>2</sub>(bipy)], <b>3</b> and [Zn<sub>2</sub>(L1)<sub>2</sub>(bpe)], <b>4</b>, respectively).
The 3D-frameworks <b>1</b>, <b>3</b>, and <b>4</b> are 2-fold interpenetrated with âź50% solvent-accessible volume,
albeit of apparently dynamic porous character, such that N<sub>2</sub> adsorption at 77 K does not occur, while H<sub>2</sub> at 77 K (up
to âź1 wt %) and CO<sub>2</sub> at 293 K (âź5 wt %) are
adsorbed with large hystereses in these flexible MOFs. The urea-functionalized
MOF <b>3</b> exhibits an uptake of 10.9 mmol g<sup>â1</sup> (41 wt %) of SO<sub>2</sub> at 293 K, 1 bar, which appears to be
the highest value observed so far. Compounds <b>3</b> and <b>4</b> adsorb 14.3 mmol g<sup>â1</sup> (20 wt %) and 17.8
mmol g<sup>â1</sup> (23 wt %) NH<sub>3</sub>, respectively,
which is at the top of the reported values. These high uptake values
are traced to the urea functionality and its hydrogen-bonding interactions
to the adsorbents. The gas uptake capacities follow the specific porosity
of the frameworks, in combination with pore aperture size and affinity
constants from fits of the adsorption isotherms
Charge-Density Distribution and Electrostatic Flexibility of ZIF-8 Based on High-Resolution X-ray Diffraction Data and Periodic Calculations
The electron-density distribution in a prototypical porous coordination polymer ZIF-8 has been obtained in an approach combining high-resolution X-ray diffraction data and Invariom refinement. In addition, the periodic quantum-chemical calculation has been used to describe the theoretical density features of ZIF-8 in the same geometry (m1) and also in a high-pressure form of ZIF-8 (m2) characterized by conformational change with respect to the methylimidazolate linker. A thorough comparison of the electronic and electrostatic properties in two limiting structural forms of ZIF-8 proposes additional aspects on diffusion and adsorption processes occurring within the framework. The dimensions of the four-membered (FM) and six-membered (SM) apertures of the beta cage are reliably determined from the total electron-density distribution. The analysis shows that FM in m2 becomes competitive in size to the SM aperture and should be considered for the diffusion of small molecules and cations. Baders topological analysis (quantum theory of atoms in molecules) shows similar properties of both ZIF-8 forms. On the other hand, analysis of their electrostatic properties reveals tremendous differences. The study suggests exceptional electrostatic flexibility of the ZIF-8 framework, where small conformational changes lead to a significantly different electrostatic potential (EP) distribution, a feature that could be important for the function and dynamics of the ZIF-8 framework. The cavity surface in m1 contains 38 distinct regions with moderately positive, negative, or neutral EP and weakly positive EP in the cavity volume. In contrast to m1, the m2 form displays only two regions of different EP, with the positive one taking the whole cavity surface and the strong negative one localized entirely in the FM apertures. The EP in the cavity volume is also more positive than that in m1. A pronounced influence of the linker reorientation on the EP of the ZIF-8 forms is related to the high symmetry of the system and to an amplification of the electrostatic properties by cooperative effects of the proximally arranged structural fragments
Effects of Extending the ĎâElectron System of Pillaring Linkers on Fluorescence Sensing of Aromatic Compounds in Two Isoreticular MetalâOrganic Frameworks
A new porous metalâorganic
framework (TMU-21) that is isostructural to our recently reported
TMU-6 is introduced. The structure of this framework has been determined
by X-ray crystallography and further characterized by Fourier transform
infrared spectroscopy, elemental analysis, and thermogravimetric analysis.
Its structural features as well as its stability and porosity were
studied. These two metalâorganic frameworks are interesting
candidates for a comparative fluorescence study. Thus, their potential
abilities to sense nitrobenzene, benzene, and polycyclic aromatic
hydrocarbons, namely, naphthalene, anthracene, and pyrene, were investigated.
This study clearly shows an important contribution of extending the Ď-electron
systems of pillaring linkers in the ability of metalâorganic
frameworks to sense aromatic compounds