| Development of molecularly imprinted polymer-based dispersive micro-solid-phase extraction for the selective extraction of histamine from canned tuna fish samples prior to its determination by GC–FID |
8609 |
– |
8617 |
| Sanaz Kamrani, Mohammad Reza Afshar Mogaddam, Mir Ali Farajzadeh, Mahboob Nemati, and Aramdokht Khatibi |
Vol. 78, 16 |
| Synthesis of N-doped carbon nano-onion-zirconium-based metal–organic framework composite and its application in dispersive micro-solid-phase extraction of patulin from apple juice followed by HPLC analysis |
5823 |
– |
5831 |
| Mahsa Joudi, Aysa Abbasalizadeh, Mir Ali Farajzadeh, Mahboob Nemati, and Mohammad Reza Afshar Mogaddam |
Vol. 78, 10 |
| Sensitive determination of urea in luciferin chemiluminescence system using an experimental design |
2571 |
– |
2580 |
| Afsaneh Nemati, Mohammad Javad Chaichi, Saman Hosseinkhani, Moslem Mansour Lakouraj, and Bagher Seyedalipour |
Vol. 77, 5 |
| Development of a deep eutectic solvent-based dispersive liquid–liquid microextraction coupled with spectrophotometer technique for determination of trace amount of Hg(II) in water samples |
909 |
– |
919 |
| Idin Nemati, Mohammad Faraji, Shahryar Jafarinejad, and Mahboube Shirani |
Vol. 77, 2 |
| Fabrication, characterization and structure activity relationship of Co and Mn encapsulated on magnetic nanocomposite and its application in one-pot tandem synthesis of various tetrazoles and vitamin K3 |
3581 |
– |
3605 |
| Fatemeh Ashouri, Ali Reza Faraji, Zahra Hekmatian, and Alireza Farahanipour |
Vol. 76, 6 |
| Trithiocyanuric acid-functionalized nanoporous silica: synthesis and application as an Ag+ selective optical probe |
6629 |
– |
6637 |
| Fatemeh Hemmati Tirabadi, Leila Hajiaghababaei, Ramin M. A. Tehrani, Alireza Badiei, and Afsane Mollahosseini |
Vol. 76, 10 |
| An experimental research on pH-responsive amino acid-coated Ni(1−x)CoxFe2O4 nanoparticles as a nano-carrier for drug delivery and biological applications |
6047 |
– |
6057 |
| Faten Eshrati Yeganeh, Mohammad Yousefi, Malak Hekmati, and Maryam Bikhof |
Vol. 75, 11 |
| Synthesis, solvent interactions and computational study of monocarbohydrazones |
2653 |
– |
2674 |
| Gorana S. Mrdjan, Borko M. Matijević, Gyöngyi Gy. Vastag, Aleksandra R. Božić, Aleksandar D. Marinković, Miloš K. Milčić, and Ivana N. Stojiljković |
Vol. 74, 8 |
| Efficient recovery of neodymium and praseodymium from NdFeB magnet-leaching phase with and without ionic liquid as a carrier in the supported liquid membrane |
4193 |
– |
4201 |
| Mehdi Asadollahzadeh, Rezvan Torkaman, Meisam Torab-Mostaedi, Alireza Hemmati, and Ahad Ghaemi |
Vol. 74, 12 |
| Highly active electrocatalysts for ethanol oxidation based on gold nanodendrites modified with NiFe2O4 nanoparticles decorated multi-walled carbon nanotubes |
2687 |
– |
2695 |
| Masoumeh Taei, Elaheh Havakeshian, Hossein Salavati, and Mojtaba Azemati |
Vol. 73, 11 |
| Stability of polyphenolic extracts from red grape skins after thermal treatments |
195 |
– |
203 |
| Ivana Tomaz, Iva Šikuten, Darko Preiner, Željko Andabaka, Nera Huzanić, Matija Lesković, Jasminka Karoglan Kontić, and Danijela Ašperger |
Vol. 73, 1 |
| CO2/CH4 separation using mixed matrix membrane-based polyurethane incorporated with ZIF-8 nanoparticles |
1839 |
– |
1853 |
| Maryam Gholami, Toraj Mohammadi, Samira Mosleh, and Mahmood Hemmati |
Vol. 71, 10 |
| Cr(VI) ion removal from artificial waste water using supported liquid membrane |
913 |
– |
925 |
| Omid Jahanmahin, Mohammad Mehdi Montazer Rahmati, Toraj Mohammadi, Jaber Babaee, and Arash Khosravi |
Vol. 70, 7 |
| Low-temperature enzymatic hydrolysis resolution in mini-emulsion media |
810 |
– |
816 |
| Nuno M. T. Lourenço, Sara C. Matias, Margarida C. Altas, and Luis P. Fonseca |
Vol. 69, 6 |
| Use of NMR spectroscopy in the analysis of carnosine and free amino acids in fermented sausages during ripening |
1319 |
– |
1324 |
| Marcel Mati, Ladislav Staruch, and Michal Šoral |
Vol. 69, 10 |
| Ni-W alloy coatings deposited from a citrate electrolyte |
492 |
– |
501 |
| Matilda Zemanová, Robert Kurinec, Vladimír Jorík, and Magdaléna Kadlečíová |
Vol. 66, 5 |
| A regio- and stereoselective three-component synthesis of 5-(trifluoromethyl)-4,5,6,7-tetrahydro-[1,2,4]triazolo[1,5-a]pyrimidine derivatives under solvent-free conditions |
536 |
– |
541 |
| Abbas Rahmati |
Vol. 65, 4 |
| Corrosion resistance of zinc electrodeposited from acidic and alkaline electrolytes using pulse current |
574 |
– |
578 |
| Matilda Zemanová |
Vol. 63, 5 |
| Comparison of isothermal and non-isothermal chemiluminescence and differential scanning calorimetry experiments with benzoyl peroxide |
471 |
– |
478 |
| Jozef Rychlý, Aysegul Kocer, Fathy Tanis, Lyda Matisová-Rychlá, Ivica Janigová, and Katarína Csomorová |
Vol. 63, 4 |
| A new approach to nickel electrolytic colouring of anodised aluminium |
62 |
– |
70 |
| Matilda Zemanová, Marta Chovancová, and Pavol Krivošík |
Vol. 63, 1 |
| Novel Porous Carbons and their Utilization in Trace Analysis |
40 |
– |
48 |
| E. Matisová, S. Hrouzková, I. Nováak, D. Berek, and J. Kozánková |
Vol. 53, 1 |
| The Testing of Carbon Sorbent for Preconcentration of Volatile Organic Trace Compounds |
169 |
– |
174 |
| S. Škrabáková, E. Matisová, M. Onderová, I. Novák, and D. Berek |
Vol. 48, 3 |
| Physicochemical properties of the molten system Na3AlF6-K3AlF6-Al2O3. 1. The temperature of primary crystallization |
677 |
– |
684 |
| P. Fellner, M. Chrenková, J. Gabčová, and K. Matiašovský |
Vol. 44, 5 |
| Fusibility and structure of the NaF-rich melts in the NaF-NaAlSi3O8 and NaF-KAlSi3O8 systems |
685 |
– |
691 |
| K. Grjotheim, V. Daněk, K. Matiašovský, and J. Stubergh |
Vol. 44, 5 |
| The electrical conductance and the structure of the NaF AlF3 melts |
743 |
– |
751 |
| J. Šiška, V. Daněk, K. Matiašovský, and A. Silný |
Vol. 42, 6 |
| Volume properties of the melts of the system KF-KCl-K2TiF6 |
753 |
– |
761 |
| V. Daněk, J. Šiška, and K. Matiašovský |
Vol. 42, 6 |
| Electrolytic metal-coating in molten-salts |
527 |
– |
565 |
| K. Matiašovský, P. Fellner, M. Chrenková-Paučírová, Ž. Lubyová, and A. Silný |
Vol. 41, 4 |
| Chemical and phase compositions of boride layers grown on steel bases in molten-salts |
153 |
– |
166 |
| M. Chrenková-Paučírová, P. Fellner, K. Matiašovský, and J. Krištín |
Vol. 40, 2 |
| Initiation of radical reactions by thermal decomposition of alkyl tert-butyl monoperoxalates |
61 |
– |
69 |
| L. Matisová-Rychlá, J. Rychlý, V. Pastušáková, and M. Schulz |
Vol. 40, 1 |
| Simultaneous addition of lithium fluoride and magnesium fluoride in the aluminum electrolysis |
409 |
– |
424 |
| K. Grjotheim and K. Matiašovský |
Vol. 37, 3 |
| Electrical conductivity of molten LiCl—NaCl—KCl and LiCl—NaCl—KCl—AICI3 mixtures |
433 |
– |
440 |
| K. Matiašovský, G. Bräeutigam, M. Chrenková-Paučírová, P. Fellner, and G. Schulze |
Vol. 34, 4 |
| Kinetic description of cumene hydroperoxide decomposition catalyzed by cobalt(II) naphthenate |
271 |
– |
277 |
| L. Matisová-Rychlá, J. Rychlý, I. Chodák, and M. Lazár |
Vol. 31, 2 |
| Calculation of the phase diagrams of multicomponent systems containing cryolite |
805 |
– |
812 |
| P. Fellner, M. Chrenková-Paučírová, and K. Matiašovský |
Vol. 30, 6 |
| Phase diagram of the ternary system KBF4—NaCl—KCl |
841 |
– |
846 |
| V. Daněk, I. Votava, M. Chrenková-Paučírová, and K. Matiašovský |
Vol. 30, 6 |
| Reactions of potassium tetrafluoroborate in molten alkali chlorides |
377 |
– |
383 |
| V. Daněk, I. Votava, and K. Matiašovský |
Vol. 30, 3 |
| Study of the system V205—Na20. II. Physicochemical properties of the molten V205—NaV03 mixtures |
728 |
– |
732 |
| V. Daněk, I. Votava, K. Matiašovský, and J. Balajka |
Vol. 28, 6 |
| Multiple coordinates of the reference points of the concentration diagrams of multicomponent systems |
468 |
– |
477 |
| M. Malinovský and K. Matiašovský |
Vol. 28, 4 |
| Cryometry in eutectic mixtures |
201 |
– |
203 |
| P. Fellner and K. Matiašovský |
Vol. 28, 2 |
| Chemical reactions in molten Na3AlF6—Si02—Al203—AlF3 mixtures |
737 |
– |
741 |
| P. Fellner and K. Matiašovský |
Vol. 27, 6 |
| Electrical conductivity of molten binary Na3AlF6—NaCl and Na3AlF6—BaCl2 mixtures |
742 |
– |
747 |
| K. Matiašovský and V. Daněk |
Vol. 27, 6 |
| Study of the system V205—Na20. I. Phase diagram of the system V205-NaV03 |
748 |
– |
751 |
| V. Daněk, J. Balajka, and K. Matiašovský |
Vol. 27, 6 |
| Measurement of viscosity of fused salts. II. Viscosity of molten binary mixtures with a cryolite base |
582 |
– |
587 |
| I. Votava and K. Matiašovský |
Vol. 27, 5 |
| Phase diagram of the system Li3AlF6—KCl. II.
Experimental results |
301 |
– |
305 |
| K. Matiašovský, I. Koštenská, and M. Malinovský |
Vol. 27, 3 |
| Some aspects of the electrolytic preparation of silicon alloys |
165 |
– |
171 |
| K. Grjotheim, K. Matiašovský, and P. Fellner |
Vol. 27, 2 |
| Measurement of viscosity of fused salts. I. Method of measurement. Viscosity of Li3AlF6 and Na3AlF6 |
172 |
– |
182 |
| I. Votava and K. Matiašovský |
Vol. 27, 2 |
| Chemiluminescence Accompanying the Decomposition
of Dibenzoyl Peroxide in Pyridine |
426 |
– |
432 |
| L. Matisová-Rychlá and M. Lazár |
Vol. 26, 5 |
| Phase Diagram of the System Li3AlF6—KCl. I. Theory |
31 |
– |
35 |
| M. Malinovský and K. Matiašovský |
Vol. 26, 1 |
| Double Layer Capacity Measurements in Molten Salts |
36 |
– |
40 |
| P. Fellner and K. Matiašovský |
Vol. 26, 1 |
| Chemical Reactions in the System Na3AlF6—Si02—Al |
249 |
– |
252 |
| K. Grjotheim and K. Matiašovský |
Vol. 25, 4 |
| Physico-Chemical Properties of the System Na3AlF6—NaCl—Ti02 |
253 |
– |
258 |
| T. P. Madhavan, K. Matiašovský, and V. Daněk |
Vol. 25, 4 |
| Measurement of the decomposition potential of aluminum oxide in trisodium aluminum fluoride-aluminum oxide and tripotassium aluminum fluoride-aluminum oxide melts |
561 |
– |
573 |
| A. Silný, M. Malinovský, and K. Matiašovský |
Vol. 23, 8 |
| Liquidus Curve and Density of the Molten System Li3AlF6—Na3AlF6 |
27 |
– |
34 |
| M. Malinovský, M. Paučírová, and K. Matiašovský |
Vol. 23, 1 |
| Electrical conductivity of fused salts in the lithium fluoride-aluminum fluoride and lithium fluoride-sodium aluminum fluoride systems |
641 |
– |
647 |
| V. Daněk, M. Malinovský, and K. Matiašovský |
Vol. 22, 9 |
| Method for measuring electrical conductivity in molten fluorides |
707 |
– |
714 |
| V. Daněk, M. Malinovský, and K. Matiašovský |
Vol. 22, 9 |
| Phase diagram of the NaF-LiF-AlF3-Al2O3 system. II. The LiF-AlF3 system |
794 |
– |
805 |
| M. Malinovský, I. Čakajdová, and K. Matiašovský |
Vol. 21, 11 |
| Simultaneous flame photometric determination of lithium and sodium |
839 |
– |
849 |
| Ž. Lubyová, M. Malinovský, and K. Matiašovský |
Vol. 21, 11 |
| Phase diagram in the NaF-LiF-AlF3-Al2O3 system. I. System NaF-LiF |
513 |
– |
520 |
| K. Matiašovský, I. Čakajdová, and M. Malinovský |
Vol. 19, 7 |
| The absorption of hydrofluoric acid in aqueous solutions |
456 |
– |
461 |
| M. Paučírová, K. Matiašovský, and M. Malinovský |
Vol. 19, 6 |
| Liquidus of the cryolyte corner of the Na3AlF6-Al2O3-Na2SO4 system |
41 |
– |
45 |
| K. Matiašovský and M. Malinovský |
Vol. 19, 1 |
| Electrical conductivity of melts of the system Na3AlF6-AlF3-Al2O3-NaCl |
140 |
– |
143 |
| K. Matiašovský, S. Ordzovensky, and M. Malinovský |
Vol. 18, 2 |
| Physicochemical analyses of some systems important in aluminum production. VIII. The density of melts of the system Na3AlF6-Al2O3-NaCl |
605 |
– |
615 |
| K. Matiašovský, A. Jászová, and M. Malinovský |
Vol. 17, 9 |
| Wetting carbon with molten cryolite |
181 |
– |
188 |
| K. Matiašovský, M. Paučírová, and M. Malinovský |
Vol. 17, 3 |
| The application of microanalysis for the measurement of critical current density at the electrolysis of cryolite fusions |
211 |
– |
216 |
| K. Matiašovský, V. Daněk, and M. Malinovský |
Vol. 17, 3 |
| Physicochemical analyses of some systems important in the production of aluminum. IX. Electric conductivity of cryolite and Na3AlF6-Al2O3 and Na3AlF6-NaCl |
839 |
– |
847 |
| K. Matiašovský, Š. Ordzovensky, and M. Malinovský |
Vol. 17, 12 |
| The density of melts in the system Na3AlF6-AlF3-Al2O3-NaCl |
848 |
– |
851 |
| K. Matiašovský, A. Jászová, and M. Malinovský |
Vol. 17, 12 |
| Chromatographic separation of 17-hydroxy corticoids on calcium sulfate column |
482 |
– |
485 |
| J. Matis and O. Adamec |
Vol. 16, 6 |
| Pyrohydrolytic determination of fluorides. III. Optimum conditions of pyrohydrolysis |
808 |
– |
817 |
| K. Matiašovský and C. Kubík |
Vol. 16, 11 |
| Pyrohydrolytic determination of fluorides. II. The effect of temperature on the time of the hydrolysis |
741 |
– |
757 |
| K. Matiašovský and C. Kubík |
Vol. 16, 10 |
| The pyrohydrolytic determination of fluoride. I. The effect of activators on the temperature at the beginning of hydrolysis |
128 |
– |
134 |
| K. Matiašovský and C. Kubík |
Vol. 16, 1-2 |
| A theory for rationally describing the location of cross sections and points on a figure in multicomponent systems. II. Simple second-order cross sections |
617 |
– |
624 |
| M. Malinovský, K. Matiašovský, and C. Kubík |
Vol. 15, 9 |
| A theory for rationally describing the location of cross sections and points on a figure in multicomponent systems. I. Simple first-order cross sections |
529 |
– |
546 |
| M. Malinovský, K. Matiašovský, and C. Kubík |
Vol. 15, 8 |
| Physicochemical analysis of some systems important in the production of aluminum. V. Liquidus of the cryolite angle of the system Na3AlF6-AlF3-Al2O3-NaCl |
241 |
– |
256 |
| K. Matiašovský and M. Malinovský |
Vol. 15, 4 |
| Physicochemical analysis of some systems important in the production of aluminum. VI. Liquidus of the cryolite angle of the system Na3AlF6-AlF3-Al2O3-CaF2-NaCl |
257 |
– |
270 |
| K. Matiašovský and M. Malinovský |
Vol. 15, 4 |
| An adjustment for N. S. Kurnakov's pyrometer |
315 |
– |
318 |
| C. Kubík, K. Matiašovský, and M. Malinovský |
Vol. 15, 4 |
| Physicochemical analyses of some systems important in production of aluminum. IV. Liquidus of the cryolite angle of the system Na3AlF6-Al2O3-CaF2-NaCl-MgF2 |
161 |
– |
172 |
| K. Matiašovský and M. Malinovský |
Vol. 15, 3 |
| Physicochemical analyses of some systems important in aluminum production. VII. Liquidus of the cryolite angle in the cut of the system Na3AlF6AlF3-Al2O3-CaF2-NaCl-MgF2 with the constant mount of 3 percent CaF2 |
699 |
– |
712 |
| K. Matiašovský and M. Malinovský |
Vol. 15, 10 |
| Physical-chemical analysis of some systems important in production of aluminum. III. Liquidus of the cryolite angle of the system Na3AlF6-Al2O3-CaF2-NaCl |
551 |
– |
563 |
| K. Matiašovský and M. Malinovský |
Vol. 14, 8 |
| Physicochemical study of some systems important in the production of aluminum. II. The phase diagram of the system Na3AlF6-CaF2-NaCl |
353 |
– |
364 |
| K. Matiašovský and M. Malinovský |
Vol. 14, 5 |
| Physicochemical study of some systems important in the production of aluminum. I. Phase diagram of the system CaF2-NaCl |
258 |
– |
264 |
| K. Matiašovský and M. Malinovský |
Vol. 14, 4 |
| Phase diagrams of some systems important in electrolytic production of magnesium. I. Two-component systems MgCl2-NaCl, CaCl2-NaCl, and MgCl2-CaCl2 |
69 |
– |
77 |
| K. Matiašovský |
Vol. 13, 2 |
| Phase diagrams of some systems important in electrolytic production of magnesium. II. Three-component system MgCl2-CaCl2-NaCl |
78 |
– |
97 |
| K. Matiašovský |
Vol. 13, 2 |
