| Experimental and theoretical investigation of quinazolin-4(3H)-one derivatives as corrosion inhibitors for low carbon steel in 1 mol/L HCl solutions |
1423 |
– |
1445 |
| Yassine Rhazi, Nazih Ouassou, Abdelmalek Matine, Khalid Boujdi, Mohammed El Mesky, Aziz Arzine, Asmae Nakkabi, Mohammed Chalkha, Abdessamad Tounsi, Mohamed Bakhouch, El Houssine Mabrouk, Ghali Al Houari, and Mohamed El Yazidi |
Vol. 80, 2 |
| Albumin-based pH and salt-induced dispersive micro-solid-phase extraction of pesticide residues in grape juice combined with deep eutectic solvent-based dispersive liquid–liquid microextraction |
5575 |
– |
5584 |
| Aysa Abbasalizadeh, Mahboob Nemati, Ramona Taati, Mir Ali Farajzadeh, Mohammad Reza Afshar Mogaddam, and Ali Pourali |
Vol. 79, 8 |
| Effect of hydrotalcites in tannate conversion coatings for iron artefacts |
9341 |
– |
9357 |
| Roman Košťúr, Viera Dujnič, Katarína Tomanová, Andrea Červenková, and Matilda Zemanová |
Vol. 78, 18 |
| Corrosion inhibition of steel in acidic media using glycyrrhizic acid: experimental and computational insights |
9507 |
– |
9528 |
| Nodirbek Rajabaliev, Yusufboy Rajabov, Mokhinur Nigmatillaeva, Khamdam Akbarov, Elyor Berdimurodov, Ilyos Eliboev, Muslum Demir, Utku Bulut Simsek, Baomin Fan, W. B. Wan Nik, and Kamila Rashidova |
Vol. 78, 18 |
| 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 |
