Main / of Physics and Technology / Solid state physics and nonlinear physics / Мархабаева Айымкул Алихановна

Мархабаева Айымкул Алихановна

Position И.о. доцента
Кафедра физики твердого тела и нелинейной физики
Scopus author ID: 57189514621
Aiko_marx@mail.ru
       Markhabayeva A.A graduated bachelor degree at the Department of Solid State Physics at physics faculty "Material Science and Technology of New Materials" in KazNU named after al-Farabi in 2009. In 2011 year the master of physics was awarded at the physicotechnical institute of the National Tomsk Polytechnic University. From 2012 to the present time Markhabaeva A.A. works at the Department of Solid State Physics and nonlinear physics as a senior teacher. Markhabaeva A.A. has received a qualification on a specialty "Experimental methods of research functional nanomaterials "of Kazakh National University named after al-Farabi and Diploma of qualification "Teacher Higher School "at the Department of Engineering Pedagogy National Tomsk Polytechnic University University, defending the thesis on the topic "Development of a work program in the context of competence approach ". It is also responsible for the working group on international accreditation of ASIN.
First higher education
Educational institution Квалификация Expiration date
КазГУ им.аль Фараби Высшее 2009
Academic degree
File name Headline Description
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
силлабус
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Engineering Graphics
Engineering Graphics
Engineering Graphics
Engineering Graphics
Engineering Graphics
Engineering Graphics
Engineering Graphics
Engineering Graphics
Engineering Graphics
Engineering Graphics
Силлабус по начертательной геометрии и инженерной графике
Engineering Graphics
Engineering Graphics
8
Engineering Graphics
Engineering Graphics
Engineering Graphics
Engineering Graphics
Engineering Graphics
Engineering Graphics
Engineering Graphics
Engineering Graphics
Engineering Graphics
Engineering Graphics
Engineering Graphics
Engineering Graphics
Engineering Graphics
Engineering Graphics
Engineering Graphics
Engineering Graphics
Engineering Graphics
Engineering Graphics
Descriptive Geometry and Engineering Graphics
Descriptive Geometry and Engineering Graphics
Descriptive Geometry and Engineering Graphics
Descriptive Geometry and Engineering Graphics
Descriptive Geometry and Engineering Graphics
Descriptive Geometry and Engineering Graphics
Descriptive Geometry and Engineering Graphics
Descriptive Geometry and Engineering Graphics
Descriptive Geometry and Engineering Graphics
Descriptive Geometry and Engineering Graphics
Descriptive Geometry and Engineering Graphics
Descriptive Geometry and Engineering Graphics
Details of Machines
Physical Properties of Materials
Mechanical Properties of Materials
Mechanical Properties of Materials
Mechanical Properties of Materials
Mechanical Properties of Materials
Mechanical Properties of Materials
Mechanical Properties of Materials
Mechanical Properties of Materials
Mechanical Properties of Materials
Mechanical Properties of Materials
Mechanical Properties of Materials
Mechanical Properties of Materials
Mechanical Properties of Materials
1
Mechanical Properties of Materials
Mechanical Properties of Materials
Mechanical Properties of Materials
Production Processes of Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Radiation Materials
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Physical Practical Work on Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Process Equipment of Manufacture Materials
Engineering and Computer Graphics
Engineering and Computer Graphics
Engineering and Computer Graphics
Engineering and Computer Graphics
Engineering and Computer Graphics
Engineering and Computer Graphics
Engineering and Computer Graphics
Engineering and Computer Graphics
Engineering and Computer Graphics
Engineering and Computer Graphics
Engineering and Computer Graphics
Engineering and Computer Graphics
Engineering and Computer Graphics
Engineering and Computer Graphics
Engineering and Computer Graphics
Engineering and Computer Graphics
Engineering and Computer Graphics
Methods of Not Destroying Control of Materials
Methods of Not Destroying Control of Materials
Methods of Not Destroying Control of Materials
Methods of Not Destroying Control of Materials
Methods of Not Destroying Control of Materials
Methods of Not Destroying Control of Materials
Methods of Not Destroying Control of Materials
Methods of Not Destroying Control of Materials
Methods of Not Destroying Control of Materials
Methods of Not Destroying Control of Materials
Methods of Not Destroying Control of Materials
Methods of Not Destroying Control of Materials
Methods of Not Destroying Control of Materials
Methods of Not Destroying Control of Materials
Methods of Not Destroying Control of Materials
Methods of Not Destroying Control of Materials
Methods of Not Destroying Control of Materials
Methods of Not Destroying Control of Materials
Designing of Manufacture
Designing of Manufacture
Designing of Manufacture
Designing of Manufacture
Designing of Manufacture
Designing of Manufacture
Designing of Manufacture
Designing of Manufacture
Designing of Manufacture
Designing of Manufacture
Designing of Manufacture
Designing of Manufacture
Designing of Manufacture
Designing of Manufacture
Designing of Manufacture
Designing of Manufacture
Designing of Manufacture
Designing of Manufacture
Structure of the Materials and Methods of Radiation
Structure of the Materials and Methods of Radiation
Structure of the Materials and Methods of Radiation
Structure of the Materials and Methods of Radiation
Structure of the Materials and Methods of Radiation
Structure of the Materials and Methods of Radiation
Structure of the Materials and Methods of Radiation
Structure of the Materials and Methods of Radiation
Structure of the Materials and Methods of Radiation
Structure of the Materials and Methods of Radiation
Structure of the Materials and Methods of Radiation
Physical Practical Work on the Optics
Physical Practical Work on the Optics
Physical Practical Work on the Optics
Physical Practical Work on the Optics
Physical Practical Work on the Optics
Physical Practical Work on the Optics
Physical Practical Work on the Optics
Physical Practical Work on the Optics
Physical Practical Work on the Optics
Physical Practical Work on the Optics
Physical Practical Work on the Optics
Physical Practical Work on the Optics
Physical Practical Work on the Optics
Physical Practical Work on the Optics
Physical Practical Work on the Optics
Physical Practical Work on the Optics
Physical Practical Work on the Optics
Physical Practical Work on the Optics
Physical Practical Work on the Optics
Physical Practical Work on the Optics
Physical Practical Work on the Optics
Physical Practical Work on the Optics
Physical Practical Work on the Optics
Physical Practical Work on the Optics
Physical Practical Work on the Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
General Course of Physics. Optics
Nuclear Materials
Nuclear Materials
Nuclear Materials
Nuclear Materials
Nuclear Materials
Nuclear Materials
Nuclear Materials
Nuclear Materials
Nuclear Materials
Nuclear Materials
Nuclear Materials
Nuclear Materials
Nuclear Materials
Nuclear Materials
Nuclear Materials
Nuclear Materials
Nuclear Materials
Nuclear Materials
Nuclear Materials
Nuclear Materials
Nuclear Materials
Nuclear Materials
Nuclear Materials
Nuclear Materials
Nuclear Materials
Nuclear Materials
Nuclear Materials
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
3
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Optics and Photonics
Practical classes on Optics
Methodics of solving tasks on Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics
Optics

1

Мархабаева Айымкул Алихановна Жалпы физика курсы бойынша есептер жинағы "Қазақ университеті" КазНУ имени аль-Фараби 2014 - г. 16 - стр.

2

Мархабаева Айымкул Алихановна Яр-Мухамедова Г.Ш., Мукашев К.. " Қазақ университеті " 2016 - г. 12 - стр.

1

Мархабаева Айымкул АлихановнаАлпысбаева Б.Е. 2014 - г. 6 - стр. 1

2

Мархабаева Айымкул Алихановна 2015 - г. 6 - стр. 58

3

Мархабаева Айымкул АлихановнаТулегенова А.Т., Абдуллин Х.А. 2016 - г. 5 - стр. 0

4

Мархабаева Айымкул Алихановна 2015 - г. 7 - стр. 58

5

Мархабаева Айымкул АлихановнаАбдуллин Х.А. 2016 - г. 5 - стр. 59

6

Мархабаева Айымкул Алихановна 2016 - г. 5 - стр. 712

7

Мархабаева Айымкул АлихановнаАбдуллин Х.А. 2017 - г. 7 - стр. 60

8

Мархабаева Айымкул АлихановнаТулегенова А.Т., Абдуллин Х.А. 2017 - г. 6 - стр. 4

9

Мархабаева Айымкул Алихановна 2017 - г. 7 - стр. 0

10

Мархабаева Айымкул АлихановнаАбдуллин Х.А. 2018 - г. 7 - стр. 52

11

Мархабаева Айымкул АлихановнаАбдуллин Х.А. 2017 - г. 7 - стр. 121

12

Мархабаева Айымкул АлихановнаКалкозова Ж.К., Абдуллин Х.А. Core-Shell (W@WO3) Nanostructure to Improve Electrochemical Performance 2019 - г. 7 - стр. 0

13

Мархабаева Айымкул Алихановна 2019 - г. 11 - стр. 3

14

Мархабаева Айымкул АлихановнаКалкозова Ж.К., Абдуллин Х.А. ZnO нанобөлшектерiнiң гидротермалды синтезi және олардың фотокаталитикалық қасиеттерi 2019 - г. 8 - стр. 128

15

Мархабаева Айымкул Алихановна 2020 - г. 37 - стр. 0

16

Мархабаева Айымкул АлихановнаАбдуллин Х.А. Designing of WO3@Co3O4Heterostructure to Enhance Photoelectrochemical Performances 2020 - г. 19 - стр. 124

1

Мархабаева Айымкул Алихановна Тулегенова А.Т. 2016 - г. 3 - стр. г.Томск

2

Мархабаева Айымкул Алихановна 2016 - г. 3 - стр. Томский политехнический университет

3

Мархабаева Айымкул Алихановна 2016 - г. 1 - стр. Томский политехнический университет

4

Мархабаева Айымкул Алихановна 2016 - г. 1 - стр. Томский политехнический университет

5

Мархабаева Айымкул Алихановна Абдуллин Х.А. 2016 - г. 4 - стр. Алматы

6

Мархабаева Айымкул Алихановна Абдуллин Х.А. 2016 - г. 2 - стр. Алматы

7

Мархабаева Айымкул Алихановна Абдуллин Х.А. 2016 - г. 3 - стр. г. Павлодар
Author Documents

8

Citations

18 по 18
documents

h-index

3

2020

Journal of Physical Chemistry A
124, с. 486-491

0

Цитирований
2020

Journal of Physical Chemistry A
124, с. 486-491

1

Цитирований
Core-shell (W@WO <inf>3</inf> ) nanostructure to improve electrochemical performance

Abdullin, K.A., Kalkozova, Z.K., Markhabayeva, A.A., Dupre, R., Moniruddin, M., Nuraje, N.

2019

ACS Applied Energy Materials
2, с. 797-803

0

Цитирований
Core-shell (W@WO<inf>3</inf>) nanostructure to improve electrochemical performance

Abdullin, K.A., Kalkozova, Z.K., Markhabayeva, A.A., Dupre, R., Moniruddin, M., Nuraje, N.

2019

ACS Applied Energy Materials
2, с. 797-803

0

Цитирований
Effect of Heat and Plasma Treatments on the Photoluminescence of Zinc-Oxide Films

Abdullin, K.A., Gritsenko, L.V., Kumekov, S.E., Markhabaeva, A.A., Terukov, E.I.

2018

Semiconductors
52, с. 177-183

0

Цитирований
2017

Journal of Applied Physics
121, с.

5

Цитирований
2017

Journal of Applied Physics
121, с.

6

Цитирований
Kinetic characteristics of the luminescence decay for industrial yttrium-gadolinium-aluminium garnet based phosphors

Lisitsyn, V.M., Stepanov, S.A., Valiev, D.T., Vishnyakova, E.A., Abdullin, H.A., Marhabaeva, A.A., Tulegenova, A.T.

2016

IOP Conference Series: Materials Science and Engineering
110, с.

6

Цитирований
Application of methods of interactive training in the educational environment of higher educational institutions

Tashkeyeva, G., Abykanova, B., Sariyeva, A., Sadirbekova, D., Marhabaeva, A.

2016

International Multidisciplinary Scientific GeoConference Surveying Geology and Mining Ecology Management, SGEM
3, с. 747-754

4

Цитирований
Cathodoluminescence properties of commercial phosphors for white LED

Polisadova, E.F., Vaganov, V.A., Valiev, D.T., Abdullin, H.A., Marhabaeva, A.A., Kerimbaev, D.D.

2016

Key Engineering Materials
712, с. 367-371

0

Цитирований