Search Results - "Kovalevskaya, Yulia A."

Low-temperature thermodynamic properties of L- and DL-valines by Paukov, I. E., Kovalevskaya, Yulia A., Boldyreva, Elena V.

“…Heat capacities C p ( T ) of L-valine and DL-valine were measured in the temperature range 6–300 K with an adiabatic calorimeter; thermodynamic functions were…”
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Low-temperature heat capacity of L- and DL-phenylglycines by Paukov, I. E., Kovalevskaya, Yulia A., Boldyreva, Elena V.

“…Heat capacity of crystalline L- and DL-phenylglycines was measured in the temperature range from 6 to 305 K. For L-phenylglycine, no anomalies in the C p (T)…”
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Low-temperature thermodynamic properties of dl-cysteine by Paukov, I. E., Kovalevskaya, Yulia A., Boldyreva, Elena V.

“…Heat capacity C p ( T ) of the crystalline dl -cysteine was measured on heating the system from 6 to 309 K by adiabatic calorimetry; thermodynamic functions…”
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An Extended Phase Transition in Crystalline l-Cysteine near 70 K by Paukov, Igor E, Kovalevskaya, Yulia A, Drebushchak, Valeri A, Drebushchak, Tatiana N, Boldyreva, Elena V

“…An anomaly of heat capacity near 70 K was registered in the crystalline l-cysteine (orthorhombic polymorph) by adiabatic calorimetry as a small, 3−5% height,…”
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Low-temperature thermodynamic properties of L-cysteine by Paukov, I. E., Kovalevskaya, Yulia A., Boldyreva, Elena V.

“…Heat capacity C p ( T ) of the orthorhombic polymorph of L -cysteine was measured in the temperature range 6–300 K by adiabatic calorimetry; thermodynamic…”
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A low-temperature heat capacity study of natural lithium micas: Heat capacity of zinnwaldite by Paukov, I. E., Kovalevskaya, Yulia A., Kiseleva, Irina A., Shuriga, Tatiana N.

“…Low-temperature heat capacity of natural zinnwaldite was measured at temperatures from 6 to 303 K in a vacuum adiabatic calorimeter. An anomalous behavior of…”
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Low temperature heat capacity of the system “silica gel–calcium chloride–water” by Aristov, Yuri I., Kovalevskaya, Yulia A., Tokarev, Michael M., Paukov, Igor E.

“…Heat capacity was measured for two composite systems based on silica gel KSK and calcium chloride confined to its pores. One corresponds to an anhydrous state,…”
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Heat capacity of methacetin in a temperature range of 6 to 300 K by Paukov, Igor E., Kovalevskaya, Yulia A., Arzamastcev, Alexei E., Pankrushina, Natalia A., Boldyreva, Elena V.

“…Heat capacity of methacetin ( N -(4-methoxyphenyl)-acetamide) has been measured in the temperature range 5.8–300 K. No anomalies in the C p ( T ) dependence…”
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Heat capacity of D- and DL-serine in a temperature range of 5.5 to 300 K by Drebushchak, V. A., Kovalevskaya, Yulia A., Paukov, I. E., Boldyreva, Elena V.

“…Heat capacity of D- and DL-serine was measured using adiabatic calorimetry in a temperature range of 5.5 to 300 K, and then thermodynamic functions were…”
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Low-temperature heat capacity of diglycylglycine: Some summaries and forecasts for the heat capacity of amino acids and peptides by Drebushchak, V. A., Kovalevskaya, Yulia A., Paukov, I. E., Boldyreva, Elena V.

“…Heat capacity of tripeptide diglycylglycine was measured in a temperature range from 6.5 to 304 K. The results were compared with those for glycine and…”
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Low-temperature heat capacity of magnesioferrite, MgFe2O4 by Turkin, A. I., Drebushchak, V. A., Kovalevskaya, Yulia A., Paukov, I. E.

“…Heat capacity of stoichiometric homogeneous spinel MgFe 2 O 4 was measured from 5 to 305 K and thermodynamic functions were derived for temperatures up to 725…”
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Low-temperature heat capacity of monoclinic enstatite by Drebushchak, V. A., Kovalevskaya, Yulia A., Paukov, I. E., Surkov, N. V.

“…Synthetic enstatite MgSiO 3 was crystallized from a melt, quenched into water, and then annealed at 873 K. The product is the monoclinic polymorph with the…”
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DSC and adiabatic calorimetry study of the polymorphs of paracetamol by Boldyreva, Elena V, Drebushchak, V. A., Paukov, I. E., Kovalevskaya, Yulia A., Drebushchak, Tatiana N

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Heat capacity of β-alanine in a temperature range between 6 and 300 K by Paukov, Igor E., Kovalevskaya, Yulia A., Boldyreva, Elena V., Drebushchak, Valery A.

“…Thermodynamic properties of β-alanine in the temperature range 6.3–301 K were studied. No phase transitions were observed for the sample specially prepared to…”
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A low-temperature heat capacity study of natural lithium micasHeat capacity of zinnwaldite by Paukov, I E, Kovalevskaya, Yulia A, Kiseleva, Irina A, Shuriga, Tatiana N

“…Low-temperature heat capacity of natural zinnwaldite was measured at temperatures from 6 to 303 K in a vacuum adiabatic calorimeter. An anomalous behavior of…”
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Low-temperature thermodynamic properties of L- and DL-valines by PAUKOV, I. E, KOVALEVSKAYA, Yulia A, BOLDYREVA, Elena V

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Heat capacity of Delta b-alanine in a temperature range between 6 and 300 K by Paukov, Igor E, Kovalevskaya, Yulia A, Boldyreva, Elena V, Drebushchak, Valery A

“…Thermodynamic properties of Delta *b-alanine in the temperature range 6.3--301 K were studied. No phase transitions were observed for the sample specially…”
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Low-temperature heat capacity of L- and DL-phenylglycines by PAUKOV, I. E, KOVALEVSKAYA, Yulia A, BOLDYREVA, Elena V

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Heat capacity of methacetin in a temperature range of 6 to 300 K by PAUKOV, Igor E, KOVALEVSKAYA, Yulia A, ARZAMASTCEV, Alexei E, PANKRUSHINA, Natalia A, BOLDYREVA, Elena V

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Low-temperature thermodynamic properties of DL-cysteine by PAUKOV, I. E, KOVALEVSKAYA, Yulia A, BOLDYREVA, Elena V

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