| Screen-printed conductive carbon layers for dye-sensitized solar cells and electrochemical detection of dopamine |
3817 |
– |
3829 |
| Michal Hatala, Pavol Gemeiner, Lenka Lorencová, Milan Mikula, Matej Hvojnik, Michaela Pavličková, Aleš Ház, Daniel Kosnáč, Tomáš Bertók, and Ján Tkáč |
Vol. 75, 8 |
| Possibilities for removal of chlorinated dye Mordant Blue 9 from model waste water‡ |
470 |
– |
476 |
| Miroslav Šimek, Petr Mikulášek, Petr Kalenda, and Tomáš Weidlich |
Vol. 70, 4 |
| Evaluation of a spectroscopic tandem method using information theory |
227 |
– |
231 |
| Silvia Ružičková and Mikuláš Matherny |
Vol. 62, 3 |
| Enhancement of Tubular Cross-Flow Microfiltration of Dispersions by Gas-Liquid Two-Phase Flow |
7 |
– |
13 |
| P. Pospíšil, P. Mikulášek, P. Doleček, and J. Cakl |
Vol. 56, 1 |
| Rheoviscometry of Offset Inks and their Emulsions with Water |
15 |
– |
22 |
| J. Kindernay, J. Panák, and M. Mikula |
Vol. 55, 1 |
| The malate dehydrogenase from Streptomyces aureofaciens: Purification and properties |
355 |
– |
355 |
| D. Mikulasova, N. Mernik, and M. Kollarova |
Vol. 52, SI |
| The malate dehydrogenase from Streptomyces aureofaciens |
356 |
– |
356 |
| M. Kollarova, D. Mikulasova, and N. Mernik |
Vol. 52, SI |
| Truncation of tau precedes fragmentation of DNA in Alzheimer's disease |
429 |
– |
430 |
| M. Novak, G. Ugolini, M. Ferencik, I. Mikula, A. Mitro, and A. Cattaneo |
Vol. 52, SI |
| Cytotoxic effects of 2,4-disubstituted 6H-5,1,3-benzothiadiazocines |
574 |
– |
574 |
| M. Hazuchova, M. Mikulasova, and A. Gul'asova |
Vol. 52, SI |
| Impact of an Anionic Surfactant Addition on Solubility of Humic
Acid in Acid-Alkaline Solutions |
753 |
– |
755 |
| I. S. Shaban and V. Mikulaj |
Vol. 52, 6 |
| A Study of Photoelectrochemical Deposition of Organic Layers on Sol-Gel Ti02 Surfaces |
193 |
– |
197 |
| M. Čeppan, M. Mikula, R. Fiala, V. Brezová, A. Blažková, and J. Panák |
Vol. 51, 4 |
| The Possible Application of Dissolution Measurements to the Study of Composite Films |
358 |
– |
361 |
| D. Bakoš, B. Havlínová, and M. Mikula |
Vol. 47, 6 |
| Synthesis and some solution properties of block copolymer styrene acrylonitrile |
235 |
– |
242 |
| V. Chrástová, D. Mikulášová, P. Citovický, and J. Schenkmayer |
Vol. 42, 2 |
| Benzothiazole compounds. 27. Alkylation and antifungal activity of some 2-R-3-(2-mercaptoethyl)benzothiazolines |
779 |
– |
790 |
| S. Mikulášek, V. Sutoris, A. Perjéssy, and P. Foltínová |
Vol. 40, 6 |
| Influence of the type of activator and emulsifier on heterogeneously initiated polymerization of styrene |
499 |
– |
507 |
| V. Chrástová, P. Citovický, D. Mikulášová, and J. Schenkmayer |
Vol. 40, 4 |
| Emulsion polymerization in the presence of inorganic material |
475 |
– |
483 |
| D. Mikulášová, V. Chrástová, P. Citovický, and I. Hudec |
Vol. 37, 4 |
| Photoinitiated emulsion polymerization of styrene or methyl methacrylate in the presence of zinc oxide |
485 |
– |
494 |
| I. Hudec, D. Mikulášová, P. Citovický, and V. Chrástová |
Vol. 37, 4 |
| Oxidized poly(vinyl chloride) as a heterogeneous initiator of emulsion polymerization |
223 |
– |
230 |
| V. Chrástová, D. Mikulášová, and P. Citovický |
Vol. 36, 2 |
| Polymolecularity of the extremely high molecular mass polymer prepared by emulsion polymerization with a macromolecular initiator forming a heterogeneous phase |
533 |
– |
541 |
| L. Šoltés, D. Mikulášová, J. Susla, and I. Hudec |
Vol. 35, 4 |
| Measurements of molecular characteristics of the extremely high molecular mass polystyrene in solution |
543 |
– |
549 |
| L. Šoltés, D. Mikulášová, and I. Hudec |
Vol. 35, 4 |
| Benzothiazole compounds. XIV. Synthesis and antitubercular activity of some derivatives of N-[1-(4-R-2-benzothiazolyl-X)-2,2,2-trichloroethyl]- and N-[1-(2-X-6-R-3-benzothiazolinyl-Y)-2,2,2-trichloroethyl]formamides, -acetamides, -chloroacetamides, and -benzamides |
550 |
– |
557 |
| S. Mikulášek, V. Sutoris, Ž. Odlerová, A. Perjéssy, and V. Konečný |
Vol. 33, 4 |
| Benzothiazole compounds. XIII. Synthesis and antitubercular activity of some N-[1-(6-R-2-benzothiazolylamino)-2,2,2-trichloroethyl]formamide, -acetamide, -chloroacetamide, and -benzamide derivatives |
691 |
– |
700 |
| S. Mikulášek, Ž. Odlerová, V. Sutoris, A. Perjéssy, and E. Solčániová |
Vol. 32, 5 |
| Role of polypropylene polyhydroperoxide in the emulsion polymerization of styrene and methyl methacrylate |
186 |
– |
193 |
| D. Mikulášová, V. Chrástová, P. Citovický, and T. Fačková |
Vol. 32, 2 |
| Decomposition of peroxides of isotactic powdered polypropylene by hydroiodic acid |
194 |
– |
204 |
| P. Citovický, I. Šimek, D. Mikulášová, and V. Chrástová |
Vol. 32, 2 |
| Influence of triethylenetetramine on the emulsion polymerization of styrene |
205 |
– |
210 |
| V. Chrástová, D. Mikulášová, and P. Citovický |
Vol. 32, 2 |
| Iodometric determination of hydroperoxides of powdered isotactic polypropylene |
342 |
– |
350 |
| P. Citovický, I. Šimek, D. Mikulášová, and V. Chrástová |
Vol. 30, 3 |
| Emulsion polymerization of styrene initiated by peroxides of powdered isotactic polypropylene in the presence of triethylenetetramine |
802 |
– |
809 |
| P. Citovický, I. Šimek, D. Mikulášová, V. Chrástová, and J. Řezníček |
Vol. 28, 6 |
| Benzothiazole compounds. V. Synthesis and antimicrobial effects of some esters of (2-benzothiazolylthio)acetic acid and 6-substituted (2-benzothiazolylthio)formic acid |
686 |
– |
692 |
| S. Mikulášek, V. Sutoris, P. Foltínová, V. Konečný, and G. Blőckinger |
Vol. 28, 5 |
| Chemical stabilization of daughter 99mTc after the
β-decay in chelate systems with molybdenyl-(99Mo) |
37 |
– |
46 |
| V. Mikulaj, P. Rajec, and V. Faberová |
Vol. 28, 1 |
| Two-phase model of nonuniformly fluidized beds according to Pyle and Harrison |
634 |
– |
642 |
| O. Mikula and I. Havalda |
Vol. 27, 5 |
| Three-flow model of nonuniformly fluidized beds in the system gas-particles |
643 |
– |
653 |
| O. Mikula and I. Havalda |
Vol. 27, 5 |
| Redox polymerization systems for the preparation of grafted polypropylene. I. Grafting of polypropylene with styrene in the presence of triethylenetetramine metal chelates |
263 |
– |
267 |
| D. Mikulášová and P. Citovický |
Vol. 27, 2 |
| Redox polymerization systems for the preparation of grafted polypropylene. II. Grafting of polypropylene with vinyl or diene monomers in the presence of iron(2+) ion chelates |
268 |
– |
272 |
| P. Citovický, D. Mikulášová, and V. Chrástová |
Vol. 27, 2 |
| Chemical consequences of the β-decay of 147Nd in tris(cyclopentadienyl)neodymium |
14 |
– |
22 |
| R. Kopunec, F. Macášek, and V. Mikulaj |
Vol. 27, 1 |
| Stabilization of daughter 99mTc after the ß-decay of 99Mo
in dihydrido-bis(cyclopentadienyl)molybdenum-(99Mo) |
23 |
– |
31 |
| V. Mikulaj, F. Macášek, and R. Kopunec |
Vol. 27, 1 |
| Preparation of crystalline polychloroprene rubber |
449 |
– |
456 |
| P. Citovický, D. Mikulášová, and V. Chrástová |
Vol. 26, 5 |
| The role of the emulsifier in grafting oxidized polypropylene by styrene in the presence of iron(II) sulfate and triethylenetetramine |
605 |
– |
609 |
| P. Citovický and D. Mikulášová |
Vol. 22, 8 |
| Synthesis of azodicarboxylic acid imide, its N-substituted derivatives and their use as dienophiles in the Diels-Alder reaction |
427 |
– |
442 |
| M. Furdík, S. Mikulášek, M. Livař, and S. Priehradný |
Vol. 21, 6 |
| Laboratory radiation source for radiochemical research |
182 |
– |
190 |
| P. Drienovsky, R. Kopunec, F. Macášek, V. Mikulaj, and D. Culka |
Vol. 21, 3 |
| Mechanism of action of the triethylenetetramine-ferrous sulfate system in grafting |
37 |
– |
42 |
| D. Mikulášová and P. Citovický |
Vol. 20, 1 |
| Inoculation of polypropylene with styrene. I. Use of tri-ethylenetetramine-iron(II) redox system |
614 |
– |
619 |
| D. Mikulášová and M. Gheorghiu |
Vol. 18, 8 |
| Inoculation of polypropylene with styrene. II. The optimum concentration of components of the redox system |
620 |
– |
628 |
| I. Šimek, D. Mikulášová, and M. Gheorghiu |
Vol. 18, 8 |
| The determination of β-glucuronidase in the juice of the stomach of the garden snail, Helix pomatia |
468 |
– |
471 |
| V. Štolc and L. Mikulaj |
Vol. 14, 6 |
| Polymerization of tetrasubstituted allylmethylsilanes. IV. Copolymerization of methyl methacrylate with triallylmethylsilane and tetraallylsilane |
228 |
– |
233 |
| D. Mikulášová, J. Pavlinec, I. Šimek, and A. Hrivík |
Vol. 13, 4 |
| Polymerization of tetrasubstituted allylmethylsilanes. III. Kinetics of the polymerization of triallylmethylsilane and tetraallylsilane |
32 |
– |
36 |
| A. Hrivík and D. Mikulášová |
Vol. 12, 1 |
| Polymerization of tetrasubstituted allylmethylsilanes. II. The mechanism of radical polymerization of allyltrimethylsilane |
708 |
– |
714 |
| D. Mikulášová and A. Hrivík |
Vol. 11, 12 |
| The polymerization of tetrasubstituted allylmethylsilanes. I. Kinetics of the polymerization of allyltrimethylsilane and diallyldimethylsilane |
641 |
– |
650 |
| D. Mikulášová and A. Hrivík |
Vol. 11, 11 |
| The preparation of allylmagnesium bromide |
622 |
– |
625 |
| D. Mikulášová, A. Hrivík, and I. Šimek |
Vol. 10, 10 |
