Your search keyword '"Łasocha, W."' showing total 14 results

1. Influence of proton irradiation on the magnetic properties of two-dimensional Ni(II) molecular magnet.

Author

Czernia D, Konieczny P, Juszyńska-Gałązka E, Perzanowski M, Lekki J, Guillén ABG, and Łasocha W

Abstract

The influence of 1.9 MeV proton irradiation on structural and magnetic properties has been explored in the two-dimensional (2D) NiSO 4 (1,3-phenylenediamine) 2 coordination ferrimagnet. The X-ray powder diffraction and IR spectroscopy revealed that the octahedrons with Ni ion in the center remain unchanged regardless of the fluence a sample received. In contrast, proton irradiation greatly influences the hydrogen bonds in the flexible parts in which the 1,3-phenylenediamine is involved. Dc magnetic measurements revealed that several magnetic properties were modified with proton irradiation. The isothermal magnetization measured at T = 2.0 K varied with the proton dose, achieving a 50% increase in magnetization in the highest measured field µ 0 H dc  = 7 T or a 25% decrease in remanence. The most significant change was observed for the coercive field, which was reduced by 90% compared to the non-irradiated sample. The observed results are accounted for the increased freedom of magnetic moments rotation and the modification of intralayer exchange couplings., (© 2023. Springer Nature Limited.)

Published

2023

2. New Organic-Inorganic Hybrid Compounds Based on Sodium Peroxidomolybdates (VI) and Derivatives of Pyridine Acids: Structure Determination and Catalytic Properties.

Author

Sławińska A, Tyszka-Czochara M, Serda P, Oszajca M, Ruggiero-Mikołajczyk M, Pamin K, Napruszewska BD, Prochownik E, and Łasocha W

Abstract

Two organic-inorganic hybrids based on sodium peroxidomolybdates(VI) and 3,5-dicarboxylic pyridine acid ( Na-35dcpa ) or N-oxide isonicotinic acid ( Na-isoO ) have been synthesized and characterized. All compounds contain inorganic parts: a pentagonal bipyramid with molybdenum center, and an organic part containing 3,5-dicarboxylic pyridine acid or N-oxide isonicotinic acid moieties. The type of organic part used in the synthesis influences the crystal structure of obtained compounds. This aspect can be interesting for crystal engineering. Crystal structures were determined using powder X-ray diffraction or single crystal diffraction for compounds Na-35dcpa and Na-isoO , respectively. Elemental analysis was used to check the purity of the obtained compounds, while X-ray Powder Diffraction (XRPD) vs. temp. was applied to verify their stability. Moreover, all the compounds were examined by Infrared (IR) spectroscopy. Their catalytic activity was tested in the Baeyer-Villiger (BV) oxidation of cyclohexanone to ε-caprolactone in the oxygen-aldehyde system. The highest catalytic activity in the BV oxidation was observed for Na-35dcpa . The compounds were also tested for biological activity on human normal cells (fibroblasts) and colon cancer cell lines (HT-29, LoVo, SW 620, HCT 116). All compounds were cytotoxic against tumor cells with metastatic characteristics, which makes them interesting and promising candidates for further investigations of specific anticancer mechanisms.

Published

2022

3. Newly-Obtained Two Organic-Inorganic Hybrid Compounds Based on Potassium Peroxidomolybdate and Dicarboxypyridinic Acid: Structure Determination, Catalytic Properties, and Cytotoxic Effects of Eight Peroxidomolybdates in Colon and Hepatic Cancer Cells.

Author

Sławińska A, Tyszka-Czochara M, Serda P, Oszajca M, Ruggiero-Mikołajczyk M, Pamin K, Karcz R, and Łasocha W

Abstract

Two new organic-inorganic hybrid compounds containing dicarboxylic pyridine acids have been obtained and characterized. Both compounds are potassium oxidodiperoxidomolybdates with 2,6-dicarboxylicpyridine acid or 3,5-dicarboxylicpyridine acid moieties, respectively. The chemical formula for the first one is C 14 H 7 K 3 Mo 2 N 2 O 18 denoted as K26dcpa , the second C 7 H 4 K 1 Mo 1 N 1 O 11.5 - K35dcpa . Their crystal structures were determined using single crystal ( K26dcpa ) or XRPD-X-ray powder diffraction techniques ( K35dcpa ). The purity of the compounds was confirmed by elemental analysis. Their thermal stability was determined with the use of non-ambient XRPD. In addition, they were examined by IR spectroscopy methods and catalytic activity studies were performed for them. Catalytic tests in the Baeyer-Villiger reaction and biological activity have been performed for eight compounds: K26dcpa , K35dcpa , and six peroxidomolybdates previously obtained by our group. The anti-proliferative activity of peroxidomolybdenum compounds after 24 h of incubation was studied in vitro against three selected human tumor cell lines (SW620, LoVo, HEP G2) and normal human cells (fibroblasts). The data were expressed as IC 50 values. The structure of the investigated oxodiperoxomolybdenum compounds was shown to have influence on the biological activity and catalytic properties. It has been shown that the newly-obtained compound, K35dcpa , is a very efficient catalyst in the Baeyer-Villiger reaction. The best biological activity results were obtained for Na-picO (previously obtained by us), which is a very effective anti-cancer agent towards SW 620 colorectal adenocarcinoma cells.

Published

2021

4. Plane and Frieze Symmetry Group Determination for Educational Purposes.

Author

Duda M, Rafalska-Łasocha A, and Łasocha W

Abstract

Three-dimensional symmetry plays a crucial role in crystallography education. The educational process can be facilitated by introducing the analysis of friezes and plane patterns such as parquets before presenting more sophisticated crystal structures. Analysis of the symmetry of parquets can serve as an opportunity to follow the full routine of finding symmetry group symbols through incorporation of a two-step procedure involving the determination of Bravais lattice type. The aim of this paper is to provide a simple description of the analysis of Bravais lattices and pattern symmetry that can be used by students as well as crystallography educators. The procedure is also summarized in the form of comprehensive tree charts. This form is easy to use and popular with students. It may also aid in the retention of certain facts concerning crystallographic methodology. Examples of patterns in frieze and parquet forms were taken from the interiors of Kórnik Castle (Poland), which exhibit Moorish-style ornamentation including dichroic patterns and constitute an important locus of cultural heritage capable of strengthening students' motivation., Competing Interests: The authors declare no competing financial interest.

Published

2020

5. 1D coordination polymer (OPD) 2 Co II SO 4 showing SMM behaviour and multiple relaxation modes.

Author

Konieczny P, Gonzalez-Guillén AB, Luberda-Durnaś K, ČiŽmár E, Pełka R, Oszajca M, and Łasocha W

Abstract

A novel one-dimensional Co II coordination polymer (OPD) 2 Co II SO 4 was formed from alternating tetrahedral sulphate anions, Co centers and molecules of 1,2-phenylenediamine (OPD). The thermal stability of the structure was confirmed up to ∼230 °C using thermogravimetry and non-ambient powder X-ray diffraction in air. The distorted pseudo-octahedral coordination sphere of Co II ions promotes strong magnetic anisotropy. Therefore (OPD) 2 Co II SO 4 was subjected to thorough characterization with ab initio and DFT calculations along with dc magnetic measurements both of which point to strong easy-axis anisotropy (D/k B ≈-87 K, E/k B ≈ 23 K). The analysis of ac susceptibility revealed field assisted magnetic relaxation in two field regimes: a low field one with one relaxation time and a high field one where three relaxation times were distinguished. The main role in relaxations of the fastest process (τ 1 ) was attributed to the direct and Raman processes.

Published

2019

6. Physicochemical characterization of mineral deposits in human ligamenta flava.

Author

Orzechowska S, Wróbel A, Kozieł M, Łasocha W, and Rokita E

Subjects

Adult, Aged, Aged, 80 and over, Bone Density, Durapatite chemistry, Female, Humans, Ligamentum Flavum diagnostic imaging, Male, Middle Aged, Spectrometry, X-Ray Emission, Spectroscopy, Fourier Transform Infrared, X-Ray Diffraction, X-Ray Microtomography, Young Adult, Chemical Phenomena, Ligamentum Flavum chemistry, Minerals chemistry

Abstract

The aim of our study was the detailed characterization of calcium deposits in ligamenta flava. The use of microcomputed tomography allowed extending the routine medical investigations to characterize mineral grains in the microscopic scale. A possible connection between spinal stenosis and ligament mineralization was investigated. The studies were carried out on 24 surgically removed ligamentum flavum samples divided into control and stenosis groups. Physicochemical characterization of the inorganic material was performed using X-ray fluorescence, X-ray diffraction, and Fourier transform infrared spectroscopy. The minerals were present in 14 of 24 ligament samples, both in stenosis and control groups. The inorganic substance constitutes on average ~0.1% of the sample volume. The minerals are scattered in the soft tissue matrix without any regular pattern. It was confirmed that minerals possess an internal structure and consist of the organic material and small inorganic grains mixture. The physicochemical analyses show that the predominant crystalline phase was hydroxyapatite (HAP). In the stenosis group calcium pyrophosphate dehydrate (CPPD) was identified. Both structures were never present in a single sample. Two different crystal structures suggest two independent processes of mineralization. The formation of CPPD may be treated as a more intense process since CPPD minerals are characterized by bigger values of the structural parameters and higher density than HAP deposits. The formation of HAP minerals is a soft tissue degeneration process that begins, in some cases, at early age or may not occur at all. Various density and volume of mineral grains indicate that the mineralization process does not occur in a constant environment and proceeds with various speeds. The formation of minerals in ligamenta flava is not directly associated with diagnosed spinal canal stenosis.

Published

2018

7. Preparation, structural characterization, and decomposition studies of two new γ-octamolybdates of 4-methylpyridine.

Author

Szymańska A, Nitek W, Rutkowska-Zbik D, and Łasocha W

Abstract

Abstract: We synthesized two new γ-octamolybdates, and determined their crystal structures from single-crystal X-ray diffraction data. Orange-yellow tetrakis(4-methylpyridinium) bis(4-methylpyridine)-γ-octamolybdate 1 crystallizes in space group P2 1 /c with a  = 11.586(2) Å, b  = 15.526(2) Å, c  = 16.247(2) Å, β  = 118.753(1)º, Z  = 2. White tetrakis(4-methylpyridinium) bis(4-methylpyridine)-γ-octamolybdate hydrate 2 crystallizes in space group C2/c with a  = 27.086(4) Å, b  = 11.917(2) Å, c  = 19.332(2) Å, β  = 124.427(1)º, Z  = 4. Results of crystal structure determinations are presented and discussed in this paper. Thermal stability and decomposition studies of the obtained two new γ-octamolybdates were performed using TG/DSC and XRPD methods. Both compounds decomposed with the formation of 4-methylpyridinium β-octamolybdate. The two compounds are pseudo-polymorphs, exhibiting both striking similarities as well as significant differences in their structures and properties.

Published

2014

8. Incorporation of guanidinium ions in Cu(II)-[M(V)(CN)8]3- double-layered magnetic systems.

Author

Stefańczyk O, Majcher AM, Rams M, Nitek W, Kozieł M, Łasocha W, and Sieklucka B

Abstract

The incorporation of guanidinium ions (Hgua+) in Cu(II)–M(V) systems results in the formation of two isostructural coordination polymers (Hgua)Cu(II)[M(V)(CN)8], M = W (1); Mo (2), which reveal a double-layered structure separated by guanidinium ions. The magnetic measurements reveal long range magnetic ordering with critical temperatures of 32.8 and 27.5 K for 1 and 2, respectively. Moreover, both assemblies exhibit hysteresis loops with coercive fields of 300 Oe for 1 and 50 Oe for 2, and a spin-flip transition around 120 Oe.

Published

2013

9. A water sensitive ferromagnetic [Ni(cyclam)]2[Nb(CN)8] network.

Author

Nowicka B, Bałanda M, Reczyński M, Majcher AM, Kozieł M, Nitek W, Łasocha W, and Sieklucka B

Subjects

Cyclamates chemical synthesis, Models, Molecular, Organometallic Compounds chemical synthesis, Cyclamates chemistry, Magnetic Fields, Organometallic Compounds chemistry, Water chemistry

Abstract

Reaction between [Ni(cyclam)](2+) and [W(CN)(8)](4-) leads to the formation of a 3D diamond-like network [Ni(cyclam)](2)[W(CN)(8)]·3.5H(2)O (1). The structure is characterised by a network of intersecting channels of 3-4 Å in diameter, filled with crystallisation water, most of which is released upon drying in air, causing the crystals to collapse. Analogous compound [Ni(cyclam)](2)[Nb(CN)(8)]·3.5H(2)O (2), based on paramagnetic Nb(IV), could only be obtained as a powder, due to the decomposition of the [Nb(CN)(8)](4-) complex under slow diffusion conditions. It shows long-range magnetic ordering with T(C) = 11.8 K and magnetic hysteresis at 2 K. These properties are lost upon drying in air. After rehydration differently shaped hysteresis appears, which together with AC susceptibility measurements suggests the formation of a multiphase system. Subsequent dehydration-rehydration experiments show partial reversibility.

Published

2013

10. X-ray absorption spectroscopy study of novel inorganic-organic hybrid ferromagnetic Cu-pyz-[M(CN)8]3- assemblies.

Author

Stefańczyk O, Podgajny R, Korzeniak T, Rams M, Kozieł M, Łasocha W, Zając DA, and Sieklucka B

Abstract

We present a unique interpretation of X-ray absorption spectroscopy (XAS) spectra at Cu:K, W:L(3), and Mo:K edges of structurally related magnetic Cu(II)-[M(V)(CN)(8)](3-) compounds. The approach results in description of the structure of novel three-dimensional (3-D) Cu(II)(3)(pyz)[M(V)(CN)(8)](2)·xH(2)O, M = W (1), Mo, (2) polymers. Assemblies 1 and 2 represent hybrid inorganic-organic compounds built of {Cu(II)[W(V)(CN)(8)](-)}(n) double-layers linked by cyanido-bridged {Cu(II)-(μ-pyz)(2+)}(n) chains. These Cu(II)-M(V) systems reveal long-range magnetic ordering with T(c) of 43 and 37 K for 1 and 2, respectively. The presence of the 3-D coordination networks and 8 cyanido-bridges at M(V) centers leads to the highest Curie temperatures and widest hysteresis loops among Cu(II)-[M(V)(CN)(8)](3-) systems.

Published

2012

11. Double switching of a magnetic coordination framework through intraskeletal molecular rearrangement.

Author

Pinkowicz D, Podgajny R, Gaweł B, Nitek W, Łasocha W, Oszajca M, Czapla M, Makarewicz M, Bałanda M, and Sieklucka B

Published

2011

12. Microporous {[Ni(cyclam)]3[W(CN)8]2}n affording reversible structural and magnetic conversions.

Author

Nowicka B, Bałanda M, Gaweł B, Ćwiak G, Budziak A, Łasocha W, and Sieklucka B

Abstract

Methanol adsorption into the porous 2D bimetallic coordination network {[Ni(cyclam)](3)[W(CN)(8)](2)}(n) (cyclam = 1,4,8,11-tetraazacyclotetradecane) causes significant modification of its structure and magnetic properties. Fully reversible transformations between the three states of the network: anhydrous, hydrated and methanol-modified are observed with the transition to the magnetic ordered state at T(c) equal to 4.9 K, 8.3 K and 11.4 K respectively. All three phases have a metamagnetic character but the methanol-modified one most easily turns to ferromagnetic and shows a hysteresis loop with coercivity field of 250 Oe. The differences in magnetic behaviour of the anhydrous and guest-induced forms of the compound are discussed in terms of changes in the structure: CN-bridge geometry and distance between the layers.

Published

2011

13. Ag(II)SO4: a genuine sulfate of divalent silver with anomalously strong one-dimensional antiferromagnetic interactions.

Author

Malinowski PJ, Derzsi M, Mazej Z, Jaglicić Z, Gaweł B, Łasocha W, and Grochala W

Published

2010

14. Magnetic spongelike behavior of 3D ferrimagnetic {[Mn(II)(imH)]2[Nb(IV)(CN)8]}n with Tc = 62 K.

Author

Pinkowicz D, Podgajny R, Bałanda M, Makarewicz M, Gaweł B, Łasocha W, and Sieklucka B

Abstract

Fully reversible room temperature dehydration of 3D {Mn(II)2(imH)2(H2O)4[Nb(IV)(CN)8] x 4 H2O}n (1; imH = imidazole) of Tc = 25 K results in the formation of 3D ferrimagnet {[Mn(II)(imH)]2[Nb(IV)(CN)8]}n (2), with Tc = 62 K, the highest ever known for octacyanometalate-based compounds. The dramatic magnetostructural modifications in 2 provide the first example of magnetic spongelike behavior in an octacyanometallate-based assembly.

Published

2008