Zirconyl chloride and its uses in phosphorus chemistry |
5293 |
– |
5307 |
Gheorghe Ilia, Petru Merghes, Narcis Varan, Vlad Chiriac, and Vasile Simulescu |
Vol. 76, 9 |
Kinetics of tartrazine photodegradation by UV/H2O2 in aqueous solution |
105 |
– |
111 |
Petruta Oancea and Viorica Meltzer |
Vol. 68, 1 |
Denitration of Primary Nitromethyl Groups in C-Glycopyranosylnitromethanes via C-Glycopyranosylmethanal Diethyl Dithioacetals |
289 |
– |
290 |
M. Poláková, M. Petrušová, M. Baráth, and L. Petruš |
Vol. 59, 4 |
Improved Method of Preparation of Glycosylmethylamines |
287 |
– |
291 |
B. Pribulová, M. Petrušová, V. Pätoprstý, and L. Petruš |
Vol. 57, 4 |
Synthesis of a Precursor of a Lipid A Mimic |
125 |
– |
130 |
M. Baráth, M. Petrušová, S. Bystrický, V. Křen, and L. Petruš |
Vol. 57, 2 |
Glycosylmethylamines as a New Tool in the Lectin Research |
340 |
– |
343 |
J. Nahálková, B. Pribulová, J. Švitel, K. Königstein, M. Petrušová, P. Gemeiner, and L. Petruš |
Vol. 53, 5 |
Stereospecific Molybdic Acid-Catalyzed Isomerization of D-Fructose
to Branched-Chain Aldose. The Synthesis of D-Hamamelose |
692 |
– |
698 |
Z. Hricovíniová, M. Hricovíni, and L. Petruš |
Vol. 52, 5 |
Comparison of Three Methods of the Conversion of 1-Deoxy-l-nitroalditols to the Corresponding Aldoses |
235 |
– |
237 |
D.-P. Pham-Huu, M. Petrušová, and L. Petruš |
Vol. 52, 4 |
Molybdic Acid-Catalyzed Mutual Interconversions of 2-C-(Hydroxymethyl)-D-glucose with D-manno-Hept-2-ulose and 2-C-(Hydroxymethyl)-D-mannose with D-gluco-Hept-2-ulose |
238 |
– |
243 |
Z. Hricovíniová, M. Hricovíni, M. Petrušová, M. Matulová, and L. Petruš |
Vol. 52, 4 |
Efficient Method for Synthesis of C-β-D-Glucopyranosylmethanaloxime |
186 |
– |
186 |
D.-P. Pham-Huu, M. Petrušová, J. N. Bemiller, and L. Petruš |
Vol. 52, 3 |
Oxidative degradation of lactose hydrazones to galarose |
432 |
– |
436 |
J. Turjan, V. Patoprsty, M. Petrusova, and L. Petrus |
Vol. 51, 6B |
Preparation of 2- C-Hydroxymethyl-D-mannose and -D-glucose and Their Stereospecific and Irreversible Rearrangements to v-gluco and D-manno-Heptulose under the Conditions of the Bílik Reaction |
373 |
– |
374 |
L. Petruš, Z. Hricovíniová, M. Petrušová, and M. Matulová |
Vol. 50, 6 |
Nitromethane Addition to Aldoses Promoted by Strongly Basic Anion-Exchange Resin in the OH- Form |
97 |
– |
100 |
E. Lattová, M. Petrušová, A. Gáplovský, and L. Petruš |
Vol. 50, 2 |
Preparation of Some 2,6-Anhydroheptoses via Ozonolysis of Sodium 2,6-Anhydro-1-deoxyheptitol-1-
nitronates |
195 |
– |
197 |
M. Petrušová, I. Stručková, M. Matulová, and L. Petruš |
Vol. 47, 3 |
A Reinvestigation of the Ruff Degradation of a C-2 Branched Chain Saccharinic Acid |
124 |
– |
126 |
L. Lukáč, A. Krihová, M. Matulová, and L. Petruš |
Vol. 47, 2 |
A Nitro Sugar Route Synthesis and Calcium Ions Catalyzed Epimerization of 2-Thiosophorose and 2-Thioepisophorose |
351 |
– |
352 |
M. Petrušová, E. Lattová, M. Matulová, and L. Petruš |
Vol. 46, 5 |
Addition of 2,6-Anhydro-7-deoxy-7-nitro-L-glycero-L-galacto-heptitol to Formaldehyde and the Conversion of the Adduct to 3,7-Anhydro-D-glycero-L-manno-octulose |
120 |
– |
123 |
M. Petrušová, E. Lattová, M. Matulová, and L. Petruš |
Vol. 46, 2 |
2-(4-X-2-Nitrophenylhydrazino)benzothiazoles |
769 |
– |
774 |
M. Potáček, M. Petrů, A. Kukačka, A. Manolopulu, and J. Halgaš |
Vol. 45, 6 |
Preparation of aldoses by ozonolysis of sodium-salts of 1-deoxy-1-nitroalditols |
823 |
– |
827 |
E. Lattová, M. Petrušová, and L. Petruš |
Vol. 45, 6 |
Preparation of 2-acetamido-2-deoxy-β-D-glucopyranosyl-methylamine via nitromethane route |
267 |
– |
271 |
M. Petrušová, M. Fedoroňko, and L. Petruš |
Vol. 44, 2 |
Electroreduction of triose oximes |
335 |
– |
341 |
M. Fedoroňko, M. Petrušová, and J. Alfőldi |
Vol. 43, 2 |
Electroreduction of oxime of glycolaldehyde and of its O-methyl derivative |
381 |
– |
388 |
M. Fedoroňko, M. Petrušová, and J. Alföldi |
Vol. 42, 3 |
Photolysis of 1-azido-1-deoxyalditols preparation of D-mannose |
655 |
– |
658 |
M. Petrušová, M. Fedoroňko, and L. Petruš |
Vol. 40, 5 |
Preparation of O-(3-azido-2-hydroxypropyl)cellulose and its photolysis to O-(2-formyl-2-hydroxyethyl)cellulose |
519 |
– |
522 |
L. Petruš and M. Petrušová |
Vol. 40, 4 |
Preparation and identification of aldolization products of 1,3-dimethoxy-2-propanone |
763 |
– |
768 |
M. Petrušová, V. Mihalov, P. Kočiš, and M. Fedoronko |
Vol. 39, 6 |
Preparation and c-13 nmr-spectra of some disaccharide glycosylmethylamines |
401 |
– |
406 |
L. Petruš, J. Alföldi, M. Matulová, and V. Bílik |
Vol. 39, 3 |
Preparation of o-(3-formylmethoxy-2-hydroxypropyl)cellulose |
407 |
– |
411 |
L. Petruš and M. Petrušová |
Vol. 39, 3 |
Selective chemisorbents. IV. Cleavable binding of thiols to S-alkylthiosulfate derivatives of cellulose |
531 |
– |
538 |
P. Gemeiner and L. Petruš |
Vol. 38, 4 |
Preparation of O-(3-chloro-2-hydroxypropyl)cellulose and its conversion to the O-(3-iodo-2-hydroxypropyl) derivative |
133 |
– |
138 |
L. Petruš and P. Gemeiner |
Vol. 38, 1 |
Chiroptical properties of D-galactosyl derivatives of nitromethane |
823 |
– |
829 |
S. Bystrický, T. Sticzay, and L. Petruš |
Vol. 36, 6 |
Preparation of 2,3-di-O-methylglyceraldehyde and its β-elimination product 2-methoxypropenal |
837 |
– |
840 |
M. Petrušová and M. Fedoroňko |
Vol. 36, 6 |
Isomerizations of C8-C12 cycloalkadienes catalyzed by titanocene derivatives |
191 |
– |
200 |
K. Mach, F. Tureček, V. Hanuš, L. Petrusová, H. Antropiusová, A. Dosedlová, and P. Sedmera |
Vol. 36, 2 |
Preparation of some glycosyl derivatives of nitromethane |
103 |
– |
110 |
L. Petruš, S. Bystrický, T. Sticzay, and V. Bílik |
Vol. 36, 1 |
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 |
Reactions of saccharides catalyzed by molybdate ions. XXX. Epimerization of D-[U-14C]glucuronic acid |
518 |
– |
523 |
V. Bílik, R. Sandtnerová, Z. Krátky, and L. Petruš |
Vol. 34, 4 |
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 |
Reactions of saccharides catalyzed by molybdate ions. XXVII. Epimerization of some aldoheptoses |
636 |
– |
640 |
L. Petruš, V. Bílik, D. Anderle, and F. Janeček |
Vol. 33, 5 |
Reactions of saccharides catalyzed by molybdate ions. XXIII. A contribution to the mechanism of the epimerization reaction |
114 |
– |
117 |
V. Bílik, L. Petruš, M. Mišíková, and V. Sutoris |
Vol. 33, 1 |
Selective separation of ketoses and aldoses by chromatography on a polyethyleneimine ion exchanger |
118 |
– |
122 |
V. Bílik, L. Petruš, and Ľ. Kuniak |
Vol. 33, 1 |
Reactions of saccharides catalyzed by molybdate ions. XXII. Oxidative degradation of D-galactose phenylhydrazones |
701 |
– |
705 |
L. Petruš, V. Bílik, K. Linek, and M. Mišíková |
Vol. 32, 5 |
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 |
Reactions of saccharides catalyzed by molybdate ions. XIX. Molybdate complexes and epimerization of aldoses as a function of pH |
242 |
– |
251 |
V. Bílik, L. Petruš, and J. Zemek |
Vol. 32, 2 |
Reactions of saccharides catalyzed by molybdate ions. XVII. Preparation of D-glycero-D-guloheptose and D-glycero-D-idoheptose |
693 |
– |
697 |
V. Bílik, L. Petruš, and J. Zemek |
Vol. 30, 5 |
Reactions of saccharides catalyzed by molybdate ions. XVIII. Preparation of D-threo-L-talooctose and D-erythro-L-talooctose and their epimers |
698 |
– |
702 |
V. Bílik, L. Petruš, and J. Alföldi |
Vol. 30, 5 |
Reactions of saccharides catalyzed by molybdate ions. XVI. Preparation and epimerization of D-glycero-L-gluco- and D-glycero-L-mannoheptose |
359 |
– |
365 |
V. Bílik and L. Petruš |
Vol. 30, 3 |
Reactions of saccharides catalyzed by molybdate ions. XV. Mechanism of the epimerization reaction |
690 |
– |
696 |
V. Bílik, L. Petruš, and V. Farkaš |
Vol. 29, 5 |
Synthesis of trans-tris(s-leucinato)cobalt(III) |
662 |
– |
664 |
F.Jursík, F. Petrů, and B. Hájek |
Vol. 23, 9 |
Chemistry of some rare elements. LI. Scandium glycinate |
615 |
– |
617 |
F. Petrů and F. Jursík |
Vol. 22, 8 |
Chemistry of rare earth elements. XXXII. Scandium phosphate |
789 |
– |
791 |
F. Petrů and A. Muck |
Vol. 20, 10 |
Chemistry of rare earth elements. XXXIII. Acetate complexes of trivalent Group III metals. 3. Paper ionophoresis of scandium and yttrium acetate complexes |
792 |
– |
794 |
F. Veselý, F. Petrů, and F. Mader |
Vol. 20, 10 |