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ISSN print edition: 0366-6352
ISSN electronic edition: 1336-9075
Registr. No.: MK SR 9/7
Published monthly
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Author: Proks
Talaromyces flavus and its metabolites |
696 |
– |
714 |
Bohumil Proksa |
Vol. 64, 6 |
Determination of dissociation degrees of K3NbF8 and K3TaF8 by thermodynamic analysis of subsystems of the KF-K2NbF7 and KF-K2TaF7 systems |
616 |
– |
622 |
Ladislav Kosa and Ivo Proks |
Vol. 62, 6 |
Optical Resolution of Ethyl 2-(Benzylamino)-4-oxo-4-phenylbutanoate with Tartaric Acid A Practical Synthesis of D-Homophenylalanine |
350 |
– |
354 |
D. Berkeš, J. Lopuch, B. Proksa, and F. Považanec |
Vol. 57, 5 |
Cryoscopy in Solvents with Dystectic Melting |
71 |
– |
76 |
I. Proks, V. Daněk, M. Chrenková, F. Šimko, and Z. Pánek |
Vol. 56, 2 |
Thermodynamic Equilibrium between Melt and Crystalline Phase
of a Compound AgBrwith Dystectic Melting Point.
III. Application to the Systems KF-K3TiF7 and KCl-K3TiF6Cl |
137 |
– |
141 |
I. Proks and V. Daněk |
Vol. 55, 3 |
Thermodynamic Equilibrium between Melt and Crystalline Phase of a Compound AqBr with Dystectic Melting Point. IV. Application to the Systems NaF—NaMgF3 and KF—KMgF3 |
142 |
– |
144 |
I. Proks and V. Daněk |
Vol. 55, 3 |
Separation of Products of Thebaine Rearrangement by Capillary Electrophoresis in the Presence of Cyclodextrins |
196 |
– |
201 |
B. Proksa |
Vol. 55, 3 |
Thermodynamic Equilibrium between Melt and Crystalline Phase of a Compound AqBr with Dystectic Melting Point. II. Application to the Systems KF—K3FMo04 and KF—K3FW04 |
59 |
– |
66 |
I. Proks, V. Daněk, L. Kosa, and K. Adamkovičová |
Vol. 55, 2 |
Thermodynamic Equilibrium between Melt and Crystalline Phase
of a Compound AqBr with Dystectic Melting Point
I. Theoretical Approach |
61 |
– |
65 |
I. Proks, V. Daněk, L. Kosa, I. Nerád, and K. Adamkovičová |
Vol. 54, 2 |
Separation of Derivatives of l-(2-Hydroxypropyl)-2-methyl-5-nitroimidazole by Capillary Zone Electrophoresis |
276 |
– |
279 |
B. Proksa, M. Koóš, and B. Steiner |
Vol. 51, 5 |
Hydroxyfuniculosic and Funiculosic Acids, Metabolites of Penicillium vermiculatum |
21 |
– |
24 |
B. Proksa, M. Šturdíková, M. Nahálková, and J. Fuska |
Vol. 50, 1 |
The Slope Calculation of Tangent Line to the Liquidus Curve at Dystectic Melting Point of a Compound AqBr in a Phase Diagram of an A—AqBr System |
1 |
– |
4 |
I. Nerád, J. Strečko, I. Proks, K. Adamkovičová, and L. Kosa |
Vol. 49, 1 |
Determination of the Dissociation Degree and Dissociation Enthalpy in a Melt of a Compound AB with the Dystectic Melting Point Application to the Compounds Na3FS04 and K3FS04 |
5 |
– |
12 |
I. Proks, J. Strečko, I. Nerád, K. Adamkovičová, and L. Kosa |
Vol. 49, 1 |
Thermodynamically Consistent Composition Dependence of Quantities of Mixture in Multicomponent Systems |
367 |
– |
370 |
J. Strečko and I. Proks |
Vol. 48, 6 |
(-)-Mitorubrinic Acid, a New Metabolite of Penicillium vermiculatum DANG. F-852 |
429 |
– |
432 |
B. Proksa, T. Liptaj, N. Prónayová, and J. Fuska |
Vol. 48, 6 |
Thermodynamic Calculation of Phase Diagrams of Systems in which One Component Undergoes Thermal Dissociation |
7 |
– |
10 |
V. Daněk and I. Proks |
Vol. 48, 1 |
Reaction of Cyclobuxine D with Epoxides |
268 |
– |
270 |
B. Proksa, B. Steiner, and M. Koóš |
Vol. 47, 4 |
Cryometric Analysis of the Phase Diagrams of Pseudobinary Systems of the System CaO • Si02 (CS)-2CaO • Al203 • Si02 (C2AS)-CaO - Al203 - 2Si02 (CAS2) 2. Results of the Analysis. |
169 |
– |
174 |
M. Eliášová, O. Žigo, and I. Proks |
Vol. 47, 3 |
Determination of Molar Gibbs Energies and Entropies of Mixing of Melts in Binary Subsystems of the System
CaO • Si02—2CaO • Al203 • Si02—CaO • Al203 • 2Si02. 1. Theoretical Part. 2CaO • Al203 • Si02—CaO • Al203 • 2Si02 System |
3 |
– |
7 |
I. Proks, J. Strečko, L. Kosa, I. Nerád, and K. Adamkovičová |
Vol. 47, 1 |
Determination of Molar Gibbs Energies and Entropies of Mixing of Melts in Binary Subsystems of the System
CaO • Si02—2CaO • Al203 • Si02—CaO • Al203 • 2Si02. 2. The System CaO • Si02—CaO • Al203 • 2Si0 |
8 |
– |
10 |
L. Kosa, I. Nerád, K. Adamkovičová, J. Strečko, and I. Proks |
Vol. 47, 1 |
Determination of Molar Gibbs Energies and Entropies of Mixing of Melts in Binary Subsystems of the System
CaO • Si02—2CaO • Al203 • Si02—CaO • Al203 • 2Si02. 3. The System CaO • Si02—2CaO • Al203 • Si02 |
11 |
– |
13 |
J. Strečko, I. Nerád, L. Kosa, K. Adamkovičová, and I. Proks |
Vol. 47, 1 |
5H-Isoindolo[1,2-b][3]benzazepines. 9. The 1H and 13C NMR Spectra of 5H-isoindolo[1,2-b][3]benzazepin-5-ones |
339 |
– |
343 |
S. Uhrínová, D. Uhrín, M. Hricovíni, and B. Proksa |
Vol. 46, 5 |
Cryometric analysis of the phase-diagrams of pseudobinary systems of the system CaO.SiO2(CS)-2CaO.Al2O3.SiO2(C2AS)-CaO.Al2O3.2SiO2 (CAS2). 1. Theoretical part |
7 |
– |
9 |
I. Proks, M. Eliášová, and O. Žigo |
Vol. 46, 1 |
Determination of equilibrium quantities of the systems formed by thermal-decomposition according to the reaction A(cond) reversibleB(cond) + C(g). 2. Divariant equilibrium states at thermal dehydration of CaC2O4 . H2O |
721 |
– |
730 |
I. Nerád, I. Proks, and S. Šaušová |
Vol. 45, 6 |
Secondary metabolites of Stenactis-annua L. |
837 |
– |
844 |
B. Proksa, D. Uhrin, and J. Fuska |
Vol. 45, 6 |
5H-isoindolo[1,2-b][3]benzazepines. 8. Synthesis of derivatives of 5H-isoindolo[1,2-b]isoquinol-5-one |
567 |
– |
573 |
B. Proksa, D. Uhrín, and A. Vadkerti |
Vol. 45, 4 |
5H-isoindolo[1,2-b][3]benzazepines. 7. Cyclization of N-substituted derivatives of narceone imide |
95 |
– |
104 |
B. Proksa, A. Vadkerti, and D. Uhrín |
Vol. 45, 1 |
Structure of hippocastanoside, a new saponin from the seed pericarp of horse-chestnut (Aesculus-hippocastanum L). 1. Structure of the aglycone |
783 |
– |
791 |
A. Vadkerti, B. Proksa, and Z. Votický |
Vol. 43, 6 |
Determination of the enthalpy of crystallization of eutectic melt in the system CaO.Al2O3.2SiO2-CaO.SiO2 |
481 |
– |
487 |
K. Adamkovičová, L. Kosa, I. Proks, and I. Tarina |
Vol. 43, 4 |
Determination of the enthalpy of crystallization of eutectic melt in the system 2CaO.Al2O3.SIO2-CaO.SiO2 |
17 |
– |
23 |
K. Adamkovičová, L. Kosa, I. Proks, and I. Tarina |
Vol. 43, 1 |
Determination of the enthalpy of crystallization of ternary eutectic melt in the system 2CaO.Al2O3.SIO2 CaO.Al2O3..2SiO2-CaO.SiO2 |
731 |
– |
741 |
K. Adamkovičová, L. Kosa, I. Proks, and O. Žigo |
Vol. 42, 6 |
5H-isoindolo[1,2-b][3]benzazepines. 6. Synthesis of 7,8,13,14-tetrahydro-5H-isoindolo[1,2-b]-[3]benzazepin-5-one derivatives |
683 |
– |
689 |
B. Proksa, D. Uhrín, and A. Vadkerti |
Vol. 42, 5 |
Semisynthetic analogs of Buxus alkaloids |
97 |
– |
103 |
V. Paulík, B. Proksa, D. Uhrín, A. Vadkerti, and Z. Votický |
Vol. 42, 1 |
Determination of the enthalpy of crystallization of eutectic melt in the system 2CaO.Al2O3.SiO2 - CaO.Al2O3. 2SiO2 |
289 |
– |
298 |
L. Kosa, O. Žigo, K. Adamkovičová, and I. Proks |
Vol. 41, 3 |
Synthesis of 4-(4-dimethylaminophenyl)-2-methyl-1-pyrroline |
413 |
– |
420 |
B. Proksa, D. Uhrín, A. Vadkerti, and Z. Votický |
Vol. 41, 3 |
Determination of the heat of fusion of 2CaO.Al2O3.SIO2 (gehlenite) |
171 |
– |
181 |
O. Žigo, K. Adamkovičová, L. Kosa, I. Nerád, and I. Proks |
Vol. 41, 2 |
Determination of equilibrium quantities of the systems formed by thermal-decomposition according to the reaction A,cond = B,cond +C,g .1. Experimental equipment |
3 |
– |
11 |
I. Nerád and I. Proks |
Vol. 41, 1 |
Synthesis of N-nornarceine imide |
71 |
– |
77 |
B. Proksa |
Vol. 40, 1 |
Determination of the enthalpy of crystallization of eutectic melt in the system 3CaO.Al2O3-12CaO.7Al2O3-2CaO.SiO2 |
585 |
– |
597 |
B. Švecová, K. Adamkovičová, L. Kosa, and I. Proks |
Vol. 39, 5 |
Enthalpy of incongruent decomposition of ЗСаО • Al203 |
3 |
– |
13 |
K. Adamkovičová, L. Kosa, Š. Povraz, and I. Proks |
Vol. 39, 1 |
Determination of heats of formation of gadolinium phosphate (GdPO4) and gadolinium phosphate dihydrate (GdPO4∙2H2O) hexagonal modifications |
41 |
– |
48 |
K. Adamkovičová, I. A Bondar, L. P Mezentseva, L. Kosa, and I. Proks |
Vol. 38, 1 |
Identification and determination of by-products of the codeine synthesis |
837 |
– |
842 |
B. Proksa and J. Černý |
Vol. 37, 6 |
Synthesis and properties of α-bromonarceine imide and its derivatives |
559 |
– |
569 |
B. Proksa, M. Bobáľ, and Š. Kováč |
Vol. 36, 4 |
Chromatographic determination of narceine imide |
835 |
– |
840 |
B. Proksa |
Vol. 35, 6 |
Structure of diluted solutions
of the molten system C2MS2—CS at temperatures
near the melting point of pure components |
602 |
– |
609 |
M. Eliášová, L. Kosa, and I. Proks |
Vol. 34, 5 |
5,6-Dihydro-8H-isoquinolo[2,3-a]phthalazin-5-ones and 8H-isoquinolo[2,3-c][2,3] benzoxazin-5-ones |
241 |
– |
247 |
B. Proksa and Z. Votický |
Vol. 34, 2 |
Synthesis of 7,8-dihydro-5H-isoindolo[1,2-b][3]benzazepin-5-one from narceine imide N-oxide |
248 |
– |
252 |
B. Proksa, Z. Votický, and M. Štefek |
Vol. 34, 2 |
10-Oxomorphine, a decomposition product of morphine |
710 |
– |
714 |
B. Proksa, Z. Votický, L. Molnár, J. Putek, and M. Štefek |
Vol. 32, 5 |
Calculation of thermodynamic excess functions in binary systems on the basis of isobaric phase equilibria and calorimetric measurements of changes in enthalpy |
433 |
– |
440 |
I. Proks |
Vol. 32, 4 |
Polarographic determination of tropolones |
789 |
– |
791 |
B. Proksa and J. Fuska |
Vol. 28, 6 |
Polarographic study of 3,5-dioxopyrazolidines |
366 |
– |
369 |
L. Molnár, B. Proksa, and H. Szőcsová |
Vol. 28, 3 |
Periodic Thermal Analysis |
620 |
– |
632 |
I. Proks and I. Zlatovský |
Vol. 23, 8 |
The Effect of Admixtures in Solid Phases and of Geometrical
Properties of Particles on Equilibrium of the Reaction
L(s) = M(s) + N(g) |
241 |
– |
253 |
I. Proks |
Vol. 23, 4 |
Calorimeter for measurement of heats of solution |
908 |
– |
919 |
I. Proks, M. Eliášová, L. Pach, and I. Zlatovský |
Vol. 21, 12 |
Measurement of kinetics of thermal decomposition of calcium carbonate by a thermobalance with a quartz spiral and optical recording |
697 |
– |
715 |
I. Proks |
Vol. 20, 10 |
Calculating extrapolation for the spectroscopic determination of admixtures |
830 |
– |
838 |
I. Proks, E. Plško, and T. Obert |
Vol. 17, 12 |
An apparatus for differential thermal analysis (DTA) at low temperatures |
309 |
– |
314 |
I. Proks and V. Šiške |
Vol. 15, 4 |
First degree of thermal decomposition of dolomite under the condition of fluidization. II |
419 |
– |
429 |
I. Proks |
Vol. 12, 7 |
The first degree of thermal decomposition of dolomite under the conditions of fluidization. I |
337 |
– |
344 |
I. Proks |
Vol. 12, 6 |
Study of CaCO3 ↹ CaO + CO2 reaction by differential thermal analysis |
275 |
– |
283 |
I. Proks and V. Šiške |
Vol. 12, 5 |
Differential thermal analysis of carbonates in carbon dioxide current |
201 |
– |
208 |
V. Šiške and I. Proks |
Vol. 12, 4 |
New arrangement for differential thermal analysis |
185 |
– |
189 |
V. Šiške and I. Proks |
Vol. 12, 3 |
A new modification of optical registration of differential thermal analysis |
78 |
– |
80 |
I. Proks |
Vol. 10, 1 |
Príspevok k diferenčnej termickej analýze uhličitanov |
344 |
– |
354 |
I. Proks |
Vol. 9, 6 |
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Thursday, October 10, 2024
SCImago Journal Rank 2023
0.381
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