Nazanı Kərimova Kərim

Haqqında

    Bölmə: Chemical Engineering
    Vəzifə: Lecturer

Təhsil

  • Master 07-OCT-19

    Bakı Mühəndislik Universiteti Əsas üzvi və neft kimya sintezinin texnologiyası

    Diplom Arayış

  • Bachelor 23-NOV-17

    Bakı Dövlət Universiteti Kimya

    Diplom A 110908

Nəşrlər

    Nəşrlər
  • Abdullayev Y, Kərimova N. Computational predictions on Brønsted acidic ionic liquid catalyzed carbon dioxide conversion to five-membered heterocyclic carbonyl derivatives. Physical Chemistry and Chemical Physics. United Kingdom. 2023;12(25), url: [1], DOI: 10.1039/D2CP05877D
  • Abdullayev Y, Kərimova N. Computational predictions on Brønsted acidic ionic liquid catalyzed carbon dioxide conversion to five-membered heterocyclic carbonyl derivatives. Physical Chemistry and Chemical Physics. United Kingdom. 2023;12(25):8624-8630, url: [2], DOI: 10.1039/D2CP05877D
  • Abdullayev Y, Kərimova N. Computational predictions on Brønsted acidic ionic liquid catalyzed carbon dioxide conversion to five-membered heterocyclic carbonyl derivatives. Physical Chemistry and Chemical Physics. United Kingdom. 2023;12(25):8624-8630, url: [3], DOI: 10.1039/D2CP05877D
  • Abdullayev Y, Kərimova N. Computational predictions on Brønsted acidic ionic liquid catalyzed carbon dioxide conversion to five-membered heterocyclic carbonyl derivatives. Physical Chemistry and Chemical Physics. United Kingdom. 2023;12(25), url: [4], DOI: 10.1039/D2CP05877D
  • Abdullayev Y, Kərimova N. Computational predictions on Brønsted acidic ionic liquid catalyzed carbon dioxide conversion to five-membered heterocyclic carbonyl derivatives. Physical Chemistry and Chemical Physics. United Kingdom. 2023;12(25), url: [5], DOI: 10.1039/D2CP05877D
  • Abdullayev Y, Kərimova N. Computational predictions on Brønsted acidic ionic liquid catalyzed carbon dioxide conversion to five-membered heterocyclic carbonyl derivatives. Physical Chemistry and Chemical Physics. United Kingdom. 2023;12(25), url: [6], DOI: 10.1039/D2CP05877D
  • Abdullayev Y, Kərimova N. Computational predictions on Brønsted acidic ionic liquid catalyzed carbon dioxide conversion to five-membered heterocyclic carbonyl derivatives. Physical Chemistry and Chemical Physics. United Kingdom. 2023;12(25), url: [7], DOI: 10.1039/D2CP05877D
  • Abdullayev Y, Kərimova N. Computational predictions on Brønsted acidic ionic liquid catalyzed carbon dioxide conversion to five-membered heterocyclic carbonyl derivatives. Physical Chemistry and Chemical Physics. United Kingdom. 2023;12(25), url: [8], DOI: 10.1039/D2CP05877D
  • Abdullayev Y, Kərimova N. Computational predictions on Brønsted acidic ionic liquid catalyzed carbon dioxide conversion to five-membered heterocyclic carbonyl derivatives. Physical Chemistry and Chemical Physics. United Kingdom. 2023;12(25), url: [9], DOI: 10.1039/D2CP05877D
  • Abdullayev Y, Kərimova N. Computational predictions on Brønsted acidic ionic liquid catalyzed carbon dioxide conversion to five-membered heterocyclic carbonyl derivatives. Physical Chemistry and Chemical Physics. United Kingdom. 2023;12(25), url: [10], DOI: 10.1039/D2CP05877D
  • Abdullayev Y, Kərimova N. Computational predictions on Brønsted acidic ionic liquid catalyzed carbon dioxide conversion to five-membered heterocyclic carbonyl derivatives. Physical Chemistry and Chemical Physics. United Kingdom. 2023;12(25), url: [11], DOI: 10.1039/D2CP05877D
  • Abdullayev Y, Kərimova N. Computational predictions on Brønsted acidic ionic liquid catalyzed carbon dioxide conversion to five-membered heterocyclic carbonyl derivatives. Physical Chemistry and Chemical Physics. United Kingdom. 2023;12(25), url: [12], DOI: 10.1039/D2CP05877D
  • Abdullayev Y, Kərimova N. Computational predictions on Brønsted acidic ionic liquid catalyzed carbon dioxide conversion to five-membered heterocyclic carbonyl derivatives. Physical Chemistry and Chemical Physics. United Kingdom. 2023;12(25), url: [13], DOI: 10.1039/D2CP05877D