| Star Anise Fruit Extract Mediated Synthesis of CoFe2O4 and GO-CoFe2O4 and Their Comparative Study on Adsorptive Dye Removal Performance |
8781 |
– |
8798 |
| Abhijeet K. Lad, Chaitali S. Pattankude, Prashant P. Chikode, Gurunath H. Nikam, and Suvarta D. Kharade |
Vol. 79, 12 |
| Microwave-assisted synthesis of Sterculia gum- graft-poly(acrylamide-co-vinyl acetate) hydrogel for remarkable removal of crystal violet from aqueous solution |
6557 |
– |
6578 |
| Sinderpal Kabalsingh Tank, Barjinder Kaur, and Navpreet Kaur |
Vol. 79, 10 |
| The exploitation of a pH-sensitive fluorescent probe for monitoring of carbonic anhydrase activity in vitro under weakly acidic conditions |
7127 |
– |
7137 |
| Radovan Murín, Roman Eibner, Jakub Joniak, Karin Schniererová, Mária Dobšovičová, Vladimír Garaj, Jaroslav Galba, Tatiana Matáková, Henrieta Stankovičová, and Jakub Šofranko |
Vol. 79, 10 |
| The structure–activity interactions of Cu/Zn, In/Pd and Fe/K catalysts supported on mesoporous SBA-15 for carbon dioxide hydrogenation at low pressure |
5103 |
– |
5112 |
| Zane Abelniece, Maria Giorgia Cutrufello, Elisabetta Rombi, Agija Stanke, Helle-Mai Piirsoo, Hugo Mändar, and Aile Tamm |
Vol. 78, 8 |
| Riboflavin and thiamine content in extracts of wild-grown plants for medicinal and cosmetic use |
1729 |
– |
1738 |
| Slavica Sunarić, Dragana Pavlović, Milica Stanković, Jelena Živković, and Ivana Arsić |
Vol. 74, 6 |
| Investigation of system complexity and addition of vitamin C on calcium oxalate precipitation |
3279 |
– |
3291 |
| Anamarija Stanković, Silvija Šafranko, Katarina Jurišić, Ivana Balić, Jelena Bijelić, Stela Jokić, and Martina Medvidović-Kosanović |
Vol. 74, 10 |
| Effect of reactants’ concentration on the ratio and yield of E,Z isomers of isatin-3-(4-phenyl)semicarbazone and N-methylisatin-3-(4-phenyl)semicarbazone |
117 |
– |
126 |
| Klaudia Jakusová, Martin Gáplovský, Jana Donovalová, Marek Cigáň, Henrieta Stankovičová, Robert Sokolík, Jan Gašpar, and Anton Gáplovský |
Vol. 67, 1 |
| Molar Mass—Intrinsic Viscosity Relationship of High-Molar-Mass Hyaluronans: Involvement of Shear Rate |
291 |
– |
293 |
| D. Lath, K. Csomorová, G. Kolláriková, M. Stankovská, and L. Šoltés |
Vol. 59, 5 |
| Study of Hyaluronan Degradation by Means of Rotational Viscometry: Contribution of the Material of Viscometer |
348 |
– |
352 |
| M. Stankovská, L. Šoltés, A. Vikartovská, R. Mendichi, D. Lath, M. Molnárová, and P. Gemeiner |
Vol. 58, 5 |
| Reaction of Imidoyl and Amidinoyl Isothiocyanates with Some C-Acid Salts |
36 |
– |
38 |
| Š. Stankovskýand K. Špirková |
Vol. 54, 1 |
| Synthesis and Biological Activity of Some 2-Substituted Quinazolin-4-ones |
272 |
– |
275 |
| K. Špirková, S. Stankovský, A. Mrvová, and Ľ. Čipák |
Vol. 53, 4 |
| Annellation to the quinazoline ring. Preparation and utilization of 3-quinazolylcarboxylates in the syntheses of fused systems |
403 |
– |
407 |
| K. Spirkova, S. Stankovsky, and M. Zahradnik |
Vol. 51, 6B |
| Knoevenagel Condensation of Ferrocenecarbaldehyde with Some Methylene Active Reagents on Inorganic Supports |
68 |
– |
71 |
| E. Stankovič, P. Elečko, and Š. Toma |
Vol. 50, 2 |
| Preparation and Biological Activity of 6H-5,l,3-Benzothiadiazocines |
28 |
– |
34 |
| M. Bodajla, Š. Stankovský, S. Jantová, D. Hudecová, and K. Špirková |
Vol. 50, 1 |
| Azolylquinazolines, Synthesis and Biological Activity |
432 |
– |
436 |
| M. Bodajla, Š. Stankovský, K. Špirková, S. Jantová, and D. Hudecová |
Vol. 48, 6 |
| Preparation and Pesticide Properties of Some 1-Substituted (1H)-1,2,4-Triazoles |
347 |
– |
350 |
| Š. Stankovský, K. Špirková, E. Jedlovská, and V. Konečný |
Vol. 48, 5 |
| Amidinoyl Isothiocyanates in the Synthesis of Condensed Quinazolines Preparation of 3-Aryl-9-chloro-5-morpholino[1,2,4]triazolo-[4,3-c]quinazolines and Their [1,5-c] Isomers |
382 |
– |
385 |
| K. Špirková, J. Horňaček, and Š. Stankovský |
Vol. 47, 6 |
| Kinetics of alkaline hydrolysis of heptacaine chloride basic analogs |
171 |
– |
176 |
| M. Stankovičová, J. Čižmárik, and M. Bachratá |
Vol. 44, 2 |
| Fast method for estimation of the effect of compounds modulating the radical oxidation of sulfhydryl-groups on 4-mercapto-2-nitrobenzoic acid applied as a model substance |
553 |
– |
559 |
| A. Breier, T. Stankovičová, V. Ďurišová, and A. Ziegelhőffer |
Vol. 43, 4 |
| Imidoyl isothiocyanates in the synthesis of condensed quinazolines preparation of 3-aryl-5-phenyl-s-triazolo[4,3-c]quinazolines |
433 |
– |
438 |
| Š. Stankovský and A. Boulmokh |
Vol. 43, 3 |
| Use of amidinoyl isothiocyanates in the synthesis of condensed heterocycles. Preparation of 2,3-dihydroimidazo- and 2,3,4-trihydropyrimido[1,2-c]quinazolines |
677 |
– |
685 |
| Š. Stankovský and A. Filip |
Vol. 38, 5 |
| Preparation of substituted 2-phenyl-4-anilinoquinazolines through imidoylcarbodiimides |
549 |
– |
555 |
| Š. Stankovský and D. Mrázová |
Vol. 38, 4 |
| Reactions of amidinoyl isothiocyanates with N-sulfinylanilines |
831 |
– |
836 |
| Š. Stankovský and V. Burkovská |
Vol. 37, 6 |
| Infrared spectra of heterocumulenes. VIII. Nature of the νas(NCS) complex band of aromatic isothiocyanates |
683 |
– |
687 |
| Š. Stankovský and Š. Kováč |
Vol. 34, 5 |
| Substitution of hydrogen by deuterium hindering the biochemical dehydrogenation of alditols in the sense of the Bertrand-Hudson rule |
695 |
– |
699 |
| Ľ. Stankovič, V. Bílik, L. Petruš, and V. Kováčik |
Vol. 34, 5 |
| Chromatographic separation of alditols on a cation-exchange resin in the lanthanum form |
530 |
– |
536 |
| L. Petruš, V. Bílik, Ľ. Kuniak, and Ľ. Stankovič |
Vol. 34, 4 |
| Amidinoyl isothiocyanates and their dimers |
253 |
– |
258 |
| S. Stankovský and A. Martvoň |
Vol. 34, 2 |
| Synthesis and some spectral properties of 5-substituted 2-anilino-1,3,4-thiadiazoles |
118 |
– |
124 |
| A. Martvoň, Š. Stankovsky, and M. Uher |
Vol. 34, 1 |
| Isomerization of pentoses and 2-pentuloses by inorganic phosphates |
397 |
– |
403 |
| Ľ. Stankovič and J. Königstein |
Vol. 33, 3 |
| Reactions of saccharides catalyzed by molybdate ions. XXI. Preparation of some ω-deoxyaldoses |
372 |
– |
377 |
| V. Bílik, L. Petruš, Ľ. Stankovič, and K. Linek |
Vol. 32, 3 |
| Kinetics of alkaline hydrolysis of the 2-piperidinoethyl esters of o-, m-, and p-alkoxyphenylcarbamic acids |
86 |
– |
91 |
| M. Stankovičová, J. Čižmárik, and M. Pešák |
Vol. 32, 1 |
| Study of electron structures of 3-(X-phenyl)iminoxindoles |
237 |
– |
245 |
| A. Košturiak, S. Stankoviansky, and D. Zacharová-Kalavská |
Vol. 31, 2 |
| Studies on circular dichroism. XIV. Chiroptical properties of some acyclic ketoses |
703 |
– |
708 |
| T. Sticzay, S. Bystrický, C. Peciar, K. Linek, and Ľ. Stankovič |
Vol. 30, 5 |
| Reactions of saccharides catalyzed by molybdate ions. XIV. Epimerization of pentuloses |
685 |
– |
689 |
| Ľ. Stankovič, V. Bílik, M. Fedoroňko, and J. Königstein |
Vol. 29, 5 |
| Kinetics of alkaline hydrolysis of substituted esters of phenylcarbamic acid |
227 |
– |
233 |
| M. Stankovičová, M. Kučárová, and M. Pešák |
Vol. 29, 2 |
| β-Resorcylidenethiosemicarbazone analytical reagent |
614 |
– |
620 |
| S. Stankoviansky, A. Beňo, and J. Čársky |
Vol. 28, 5 |
| Infrared spectra of heterocumulenes. I. Influence of substituents on the infrared Influence of substituents on the infrared spectral bands of νas(NCN) of some aromatic carbodiimides |
230 |
– |
233 |
| Š. Stankovský and Š. Kováč |
Vol. 28, 2 |
| Infrared spectra of heterocumulenes. II. Infrared spectral data of some ketenimines |
234 |
– |
237 |
| Š. Stankovský and Š. Kováč |
Vol. 28, 2 |
| Infrared spectra of heterocumulenes. III. Vibrational wave numbers and integrated absorption intensities of the diazo group of some diphenyldiazomethanes |
238 |
– |
242 |
| Š. Stankovsky and Š. Kováč |
Vol. 28, 2 |
| Infrared spectra of heterocumulenes. IV. Influence of substituents on the νas(NNN) bands of some substituted phenyl azides |
243 |
– |
246 |
| Š. Stankovsky and Š. Kováč |
Vol. 28, 2 |
| Infrared spectra of heterocumulenes. VI. Characteristic wave numbers and intensities of the bands of isocyanates, isothiocyanates, and isoselenocyanates |
247 |
– |
251 |
| Š. Stankovsky and Š. Kováč |
Vol. 28, 2 |
| Reactions of saccharides catalyzed by molybdate ions. VI. Epimerization of aldotetroses |
544 |
– |
546 |
| V. Bílik and Ľ. Stankovič |
Vol. 27, 4 |
| Oxidation of Erythritol, D-Threitol, erythro-2,3- and threo-2,3-Butanediols Respectively, by Mercury(II)
Acetate |
441 |
– |
444 |
| Ľ. Stankovič and M. Fedoroňko |
Vol. 25, 6 |
| Spectrophotometric study and analytical utility of reaction of β-resorcylidenethiosemicarbazone with copper(II) |
123 |
– |
131 |
| S. Stankoviansky, A. Beňo, J. Čársky, and E. Komiňáková |
Vol. 25, 2 |
| Polarographic investigation of the ferrocene analogs of chalcone and calculation of the σ and σo constants of ferrocenyl group |
19 |
– |
27 |
| S. Stankoviansky, A. Beňo, Š. Toma, and E. Gono |
Vol. 24, 1 |
| Reaction of β-resorcylidenethiosemicarbazone and nickel(II) cations and its application for the gravimetric determination of nickel |
589 |
– |
596 |
| S. Stankoviansky, J.Čársky, and A. Beňo |
Vol. 23, 8 |
| Polarographic studies of some keto-isonitroso derivatives of indan |
94 |
– |
100 |
| I. Zelenský, S. Stankoviansky, Dagmar Zacharová-Kálavska, and A. Košturiak |
Vol. 23, 2 |
| Polarographic study of some 2-acyl derivatives of 1,3-indandione |
101 |
– |
106 |
| Dagmar Zacharová-Kalavská, S. Stankoviansky, and I. Zelenský |
Vol. 23, 2 |
| Gravimetric determination of cadmium with β-resorcylidene thiosemicarbazone |
50 |
– |
55 |
| S. Stankoviansky, J. Čársky, A. Beňo, and E. Dolníková |
Vol. 22, 1 |
| 2-[p-(Diethylamino)phenylazo]-1,3-indandione as an acid-base indicator |
423 |
– |
429 |
| E. Kuchár, S. Stankoviansky, and D. Zacharová |
Vol. 20, 6 |
| Polarographic study of the complex formation between mercury ions and the meso and racemic forms of 2,3-diaminobutane |
115 |
– |
123 |
| J. Königstein, S. Stankoviansky, and M. Herkeľová |
Vol. 20, 2 |
| Microdetermination of fluorides in urine by mineralization |
272 |
– |
280 |
| S. Stankoviansky and P. Biely |
Vol. 19, 4 |
| The effect of chlorination on amino acids and proteins. II. Binding of chlorine in chlorinated ovalbumin under various conditions |
936 |
– |
941 |
| J. Vašátko and L. Stankovič |
Vol. 19, 12 |
| Determination of silicon in O-(trimethylsilyl) derivatives of saccharides |
688 |
– |
691 |
| V. Bílik, I. Ježo, and Ľ. Stankovič |
Vol. 18, 9 |
| Chelates of resorcylidene-4-phenyithiosemicarbazone. III |
411 |
– |
418 |
| S. Stankoviansky, J. Čársky, and Š. Halada |
Vol. 17, 6 |
| Polarographic study of water-insoluble isothiocyanates, p-chlorophenylisothiocyanate, 2,4-dichlorophenylisothiocyanate, and p-iodophenylisothiocyanate. II |
300 |
– |
306 |
| R. Rusina, S. Stankoviansky, and K. Szabadošová |
Vol. 17, 5 |
| The determination of hexamethylenetetramine in the presence of formaldehyde in waste waters |
274 |
– |
279 |
| V. Stankovič |
Vol. 17, 4 |
| The effect of the amount of active chlorine on the insecticidal activity of saturated 'V-K' chalk |
177 |
– |
180 |
| J. Vašátko and Ľ. Stankovič |
Vol. 17, 3 |
| The determination of formaldehyde in waste waters |
683 |
– |
691 |
| V. Stankovič |
Vol. 16, 9 |
| Polarographic study of isothiocyanates insoluble in water. I. α-Naphthyl- and -naphthylisothiocyanates |
625 |
– |
632 |
| S. Stankoviansky, R. Rusina, and K. Szabadošová |
Vol. 16, 8 |
| Reaction of ammonium sulfite and ammonium bisulfite with formaldehyde |
210 |
– |
216 |
| S. Stankoviansky |
Vol. 16, 3 |
| The effect of chlorinated egg albumen on microorganisms |
119 |
– |
127 |
| J. Vašátko and Ľ. Stankovič |
Vol. 16, 1-2 |
| Metallic salts of β-resorcylidenthiosemicarbazides. II |
131 |
– |
135 |
| S. Stankoviansky and J. Čársky |
Vol. 15, 2 |
| Metallic salts of salicylaldehyde 4-phenylthiosemicarbazone and of salicylaldehyde S-methyl-2,4-diphenylthiosemicarbazone |
36 |
– |
44 |
| S. Stankoviansky and J. Čársky |
Vol. 15, 1 |
| The effect of oxidation and chlorination process on amino acids and proteins |
434 |
– |
449 |
| Ľ. Stankovič and J. Vašátko |
Vol. 14, 6 |
| [N,N-bis(carboxymethyl)aminomethyl]quinizarin as a new metal chromium indicator for calcium |
265 |
– |
274 |
| S. Stankoviansky, V. Podaný, F. Jasinger, and P. Majer |
Vol. 14, 4 |
| Effect of amino acids on the amount of free chlorine in chlorine water |
275 |
– |
281 |
| Ľ. Stankovič |
Vol. 14, 4 |
| The determination of active chlorine and its stability in chlorinated egg albumin |
817 |
– |
822 |
| J. Vašátko and Ľ. Stankovič |
Vol. 13, 12 |
| Chlorine binding in saturation V-K chalk |
592 |
– |
601 |
| J. Vašátko and Ľ. Stankovič |
Vol. 13, 10 |
| The synchronization of mercury drops for polarographic purposes by a scraper |
266 |
– |
275 |
| S. Stankoviansky |
Vol. 3, 8-9 |
| The synchronization of mercury drops for polarographic purposes by a scraper |
133 |
– |
142 |
| S. Stankoviansky |
Vol. 2, 5-6 |
