Main / Chemistry and Chemical Technology / Physical chemistry, catalysis and petroleum chemistry / Супиева Жазира Асылбековна
Супиева Жазира Асылбековна
Position
First higher education
| Educational institution | Квалификация | Expiration date |
|---|---|---|
| КазНУ им. аль-Фараби | Бакалавриат | 2013 |
Academic degree
| Name of academic degree | Branch of science | Graduation Date |
|---|---|---|
| Магистр | Химическая технология неорганических веществ |
Academic degree
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Structure of matter |
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Structure of matter |
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Structure of matter |
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Structure of matter |
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Structure of matter |
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Structure of matter |
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Structure of matter |
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Structure of matter |
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Structure of matter |
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Structure of matter |
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Chemical Kinetics and Electrochemistry |
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Chemical Kinetics and Electrochemistry |
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Chemical Kinetics and Electrochemistry |
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Chemical Kinetics and Electrochemistry |
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Chemical Kinetics and Electrochemistry |
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Chemical Kinetics and Electrochemistry |
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Chemical Kinetics and Electrochemistry |
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Chemical Kinetics and Electrochemistry |
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Chemical Kinetics and Electrochemistry |
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Chemical Kinetics and Electrochemistry |
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Chemical Kinetics and Electrochemistry |
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Chemical Kinetics and Electrochemistry |
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Chemical Kinetics and Electrochemistry |
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Chemical Kinetics and Electrochemistry |
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Chemical Kinetics and Electrochemistry |
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Chemical Kinetics and Electrochemistry |
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Chemical Kinetics and Electrochemistry |
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Chemical Kinetics and Electrochemistry |
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Chemical Kinetics and Electrochemistry |
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Chemical Kinetics and Electrochemistry |
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Chemical Kinetics and Electrochemistry |
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Chemical Kinetics and Electrochemistry |
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Chemical Kinetics and Electrochemistry |
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Chemical Kinetics and Electrochemistry |
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Chemical Kinetics and Electrochemistry |
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Chemical Kinetics and Electrochemistry |
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Chemical Kinetics and Electrochemistry |
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Reactivity of Solids |
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Reactivity of Solids |
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Reactivity of Solids |
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Reactivity of Solids |
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Reactivity of Solids |
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Reactivity of Solids |
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Theory and Problems of Physical Chemistry |
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Theory and Problems of Physical Chemistry |
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Theory and Problems of Physical Chemistry |
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Theory and Problems of Physical Chemistry |
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Theory and Problems of Physical Chemistry |
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Theory and Problems of Physical Chemistry |
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Theory and Problems of Physical Chemistry |
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Theory and Problems of Physical Chemistry |
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Theory and Problems of Physical Chemistry |
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Theory and Problems of Physical Chemistry |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Metrology and standardization |
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Phase Equilibria in Multicomponent Systems |
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Phase Equilibria in Multicomponent Systems |
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Phase Equilibria in Multicomponent Systems |
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Phase Equilibria in Multicomponent Systems |
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Phase Equilibria in Multicomponent Systems |
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Phase Equilibria in Multicomponent Systems |
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Phase Equilibria in Multicomponent Systems |
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Phase Equilibria in Multicomponent Systems |
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Phase Equilibria in Multicomponent Systems |
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Phase Equilibria in Multicomponent Systems |
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Phase Equilibria in Multicomponent Systems |
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Phase Equilibria in Multicomponent Systems |
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Phase Equilibria in Multicomponent Systems |
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Phase Equilibria in Multicomponent Systems |
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Fundamentals of Nonequilibrium Thermodynamics |
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Fundamentals of Nonequilibrium Thermodynamics |
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Fundamentals of Nonequilibrium Thermodynamics |
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Fundamentals of Nonequilibrium Thermodynamics |
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Fundamentals of Nonequilibrium Thermodynamics |
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Fundamentals of Nonequilibrium Thermodynamics |
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Chemical thermodynamics |
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Chemical thermodynamics |
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Chemical thermodynamics |
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Chemical thermodynamics |
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Chemical thermodynamics |
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Chemical thermodynamics |
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Chemical thermodynamics |
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Applied molecular spectroscopy |
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Applied molecular spectroscopy |
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Applied molecular spectroscopy |
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Applied molecular spectroscopy |
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Applied molecular spectroscopy |
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Applied molecular spectroscopy |
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Applied molecular spectroscopy |
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Applied molecular spectroscopy |
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Applied molecular spectroscopy |
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Applied molecular spectroscopy |
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Applied molecular spectroscopy |
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Applied molecular spectroscopy |
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Applied molecular spectroscopy |
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Applid chemical kinetics |
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Applid chemical kinetics |
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Applid chemical kinetics |
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Applid chemical kinetics |
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Applid chemical kinetics |
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Basics of obtaining of composite materials |
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Basics of obtaining of composite materials |
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Basics of obtaining of composite materials |
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Basics of obtaining of composite materials |
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Basics of obtaining of composite materials |
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Basics of obtaining of composite materials |
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Kinetics of complex processes |
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Kinetics of complex processes |
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Kinetics of complex processes |
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Kinetics of complex processes |
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Kinetics of complex processes |
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Kinetics of complex processes |
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Kinetics of complex processes |
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Quantum-chemical methods in thermochemistry |
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Quantum-chemical methods in thermochemistry |
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Quantum-chemical methods in thermochemistry |
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Quantum-chemical methods in thermochemistry |
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Quantum-chemical methods in thermochemistry |
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Quantum-chemical methods in thermochemistry |
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Quantum-chemical methods in thermochemistry |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 1 |
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Physical chemistry 2 |
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Physical chemistry 2 |
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Physical chemistry 2 |
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Physical chemistry 2 |
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Physical chemistry 2 |
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Physical chemistry 2 |
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Physical chemistry 2 |
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Physical chemistry 2 |
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Physical chemistry 2 |
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Physical chemistry 2 |
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Physical chemistry 2 |
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Physical chemistry 2 |
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Physical chemistry 2 |
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Physical chemistry 2 |
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Physical chemistry 2 |
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Physical chemistry 2 |
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Physical chemistry 2 |
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Physical chemistry 2 |
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Physical chemistry 2 |
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Physical chemistry 2 |
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Physical chemistry 2 |
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Physical chemistry 2 |
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Physical chemistry 2 |
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Physical chemistry 2 |
Силлабус
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Physical chemistry 2 |
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Physical chemistry 2 |
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Physical chemistry 2 |
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Physical chemistry 2 |
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Physical chemistry 2 |
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General Chemical Technology |
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General Chemical Technology |
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General Chemical Technology |
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General Chemical Technology |
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General Chemical Technology |
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General Chemical Technology |
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General Chemical Technology |
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General Chemical Technology |
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Engineering Thermodynamics |
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Engineering Thermodynamics |
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Engineering Thermodynamics |
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Engineering Thermodynamics |
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Engineering Thermodynamics |
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Engineering Thermodynamics |
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Engineering Thermodynamics |
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Engineering Thermodynamics |
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Engineering Thermodynamics |
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Engineering Thermodynamics |
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1
Супиева Жазира Асылбековна
Нұрұлы Е..
The latest methods for extracting cobalt and nickel from mineral raw materials
QAGAZPRINT
2022 - г.
ISBN 978-601-7776-65-7
15 - стр.
1
Супиева Жазира Асылбековна
2020 - г.
6 - стр.
25
2
Супиева Жазира Асылбековна
2020 - г.
10 - стр.
55
3
Супиева Жазира Асылбековна
2020 - г.
4 - стр.
4736
4
Супиева Жазира Асылбековна
2020 - г.
8 - стр.
22
5
Супиева Жазира Асылбековна
2021 - г.
9 - стр.
27
6
Супиева Жазира Асылбековна
2021 - г.
6 - стр.
94
7
Супиева Жазира АсылбековнаНұрұлы Е..
The latest cobalt and nickel recovery methods from mineral raw
2022 - г.
2 - стр.
0
1
Супиева Жазира Асылбековна
2020 - г.
3 - стр.
Санкт-Петербург
Author Documents
24
Citations
322 по 309
documents
h-index
7
Optimizing reduced graphene oxide/MXene composites as sulfur hosts for lithium-sulfur batteries: A systematic investigation
Kenzhebek, M., Mentbayeva, A., Supiyeva, Z., Kabyshev, A., Sultanov, F.
2025
Materials Letters
396, с.
1
ЦитированийProgress and challenges of zinc ion capacitors: From basic principles to performance optimization strategies
Pan, X., Supiyeva, Z., Wang, Z., Abbas, Q.
2025
Chemical Engineering Journal
516, с.
2
ЦитированийEffect of Activating Agent and Temperature Conditions on the Electrochemical Performance of Rice Husk-Based Activated Carbon in Supercapacitors
Mukhametgazy, N., Temirkulova, K.M., Balgabayeva, B., Khamzin, B.G., Azat, S., Supiyeva, Z.A., Abbas, Q.
2025
Eurasian Journal of Chemistry
30, с. 62-73
0
ЦитированийSynergy in metal oxide/metal sulfide binary composites for photocatalysis: mechanisms, applications, and emerging trends
Aslam, A., Nadeem, N., Balgabayeva, B., Khan, S.U., Abbas, Q., Noreen, S., Zahid, M., Supiyeva, Z.
2025
Inorganic Chemistry Communications
181, с.
0
ЦитированийMethodological insights into sulfur immobilization techniques on commercial carbon for lithium-sulfur batteries
Shinkarova, Y., Tursynbek, M., Kenzhebek, M., Tatykayev, B., Supiyeva, Z., Kerimkul, T., Sultanov, F., Mentbayeva, A.
2025
Rsc Advances
15, с. 33443-33455
0
ЦитированийFrom electrochemical performance to mechanical Issues: A review on silicon anode architectures for advanced lithium-ion batteries
Askaruly, K., Supiyeva, Z., Azat, S., Yeszhan, Y., Pan, X., Ozoemena, K., Dsoke, S., Abbas, Q.
2025
Journal of Power Sources
659, с.
0
ЦитированийExploring unique properties of polypyrrole reinforced molybdenum disulfide electrodes for aqueous aluminum ion capacitors
He, Y., Pan, X., Zhang, Z., Long, Q., Liu, Q., Azat, S., Abbas, Q., Qiu, G., Supiyeva, Z., Chen, X.
2025
Journal of Energy Storage
114, с.
1
ЦитированийA unique choline nitrate-based organo-aqueous electrolyte enables carbon/carbon supercapacitor operation in a wide temperature window (−40°C to 60°C)
Supiyeva, Z., Mansurov, Z., Azat, S., Abbas, Q.
2024
Frontiers in Chemistry
12, с.
1
ЦитированийUsing metal–organic frameworks to create carbon-encased Ni@Ni(OH)2 for high-performance supercapacitors
Wang, J., Pan, X., Peng, P., Wu, S., Xu, G., Xie, J., Supiyeva, Z., Liu, Q.
2024
Journal of Nanoparticle Research
26, с.
3
ЦитированийIodine Adsorption in Nanoporous Carbon to Fabricate Assimilated Battery Electrodes for Durable Hybrid Supercapacitors
Larasati, L.D., Supiyeva, Z., Islam, M.T., Abbas, Q.
2024
Materials
17, с.
0
ЦитированийHydrothermal synthesis and photoluminescence of single-crystalline LaVO4:Eu3+ nanorods/nanosheaves
Wang, J., Pan, X., Li, Z., Xu, R., Zhang, P., Lin, Z., Fan, Y., Xie, J., Ke, J., Supiyeva, Z.
2024
MRS Communications
14, с. 1269-1272
1
ЦитированийMicrocrystalline-Fe2P4O12 as eco-friendly and efficient anode for high-performance dual-ion battery
He, Y., Pan, X., Long, Q., Yang, H., Huang, H., Zhan, H., He, Y., Supiyeva, Z., Li, C., Abbas, Q.
2024
Chemical Engineering Journal
499, с.
0
ЦитированийThe critical role of nanostructured carbon pores in supercapacitors
Supiyeva, Z., Pan, X., Abbas, Q.
2023
Current Opinion in Electrochemistry
39, с.
54
ЦитированийSodium-ion diffusion coefficients in tin phosphide determined with advanced electrochemical techniques
Wang, J., Pameté, E., Yan, S., Zhao, W., Zhang, J., He, X., Supiyeva, Z., Abbas, Q., Pan, X.
2023
Electrochemistry Communications
150, с.
15
ЦитированийHigh capacity Mo7S8 nanosheets with electrodeposited alpha-Co(OH)2 thin layer as positive electrode in hybrid potassium dual-ion supercapacitors
Qiu, G., Zhang, Z., Pameté, E., He, Y., Pan, X., Chen, M., Luo, S., Supiyeva, Z., Abbas, Q., Chen, X.
2023
Electrochimica Acta
458, с.
3
ЦитированийAn asymmetric MnO2|activated carbon supercapacitor with highly soluble choline nitrate-based aqueous electrolyte for sub-zero temperatures
Schrade, S., Zhao, Z., Supiyeva, Z., Chen, X., Dsoke, S., Abbas, Q.
2022
Electrochimica Acta
425, с.
17
ЦитированийA comprehensive review of template-assisted porous carbons: Modern preparation methods and advanced applications
Pavlenko, V., Khosravi H, S., Żółtowska, S., Haruna, A.B., Zahid, M., Mansurov, Z., Supiyeva, Z., Galal, A., Ozoemena, K.I., Abbas, Q., Jesionowski, T.
2022
Materials Science and Engineering R Reports
149, с.
184
ЦитированийRecycling of Low-Density Polyethylene Waste for Synthesis of Carbon Nanotubes
Smagulova, G.T., Vassilyeva, N., Kaidar, B.B., Yesbolov, N., Prikhod’ko, N.G., Supiyeva, Z., Artykbaeva, M.T., Mansurov, Z.A.
2021
Journal of Engineering Physics and Thermophysics
94, с. 431-436
7
ЦитированийExperimental Determination of Electrochemical Sorption/Desorption Properties of Gold(III) Ions
Mansurov, Z.A., Supiyeva, Z.A., Yeleuov, M.A., Taurbekov, A.T., Pavlenko, V.V., Smagulova, G.T.
2021
Russian Journal of Non Ferrous Metals
62, с. 257-264
3
ЦитированийAdsorption of Au (III) ions by carbonized apricot stones in presence of heavy metal ions
Mansurov, Z.A., Mansurova, R.M., Zakharov, V.A., Supiyeva, Z.A.
2020
Journal of Chemical Technology and Metallurgy
55, с. 1047-1056
1
ЦитированийApplication of carbons produced from rice husk in the process of capacitive deionization
Pavlenko, V., Supiyeva, Z.
2020
Eurasian Chemico Technological Journal
22, с. 277-284
2
ЦитированийInvestigation of gold electrosorption onto gold and carbon electrodes using an electrochemical quartz crystal microbalance
Mansurov, Z., Supiyeva, Z., Avchukir, K., Taurbekov, A., Yeleuov, M., Smagulova, G., Mansurova, M., Biisenbayev, M., Pavlenko, V.
2019
Eurasian Chemico Technological Journal
21, с. 283-289
4
ЦитированийThe investigation of electroreduction of AuCl-4 in the case of gold electrosorption using activated carbon
Supiyeva, Z., Avchukir, K., Pavlenko, V., Yeleuov, M., Taurbekov, A., Smagulova, G., Mansurov, Z.
2019
Materials Today Proceedings
25, с. 33-38
9
ЦитированийTemperature dependent characteristics of activated carbons from walnut shells for improved supercapacitor performance
Pavlenko, V.V., Abbas, Q., Przygocki, P., Kon’kova, T., Supiyeva, Z., Abeykoon, N., Prikhodko, N., Bijsenbayev, M., Kurbatov, A., Lesbayev, B.T., Mansurov, Z.A.
2018
Eurasian Chemico Technological Journal
20, с. 99-105