Professor

 

 

Research Interests

Our research primarily focuses on the fundamental and applied aspects of nanomaterials, exploring their diverse properties and potential applications. We are particularly engaged in:

  • Study of Various Properties (Optical, Electric, Dielectric, and Magnetic Properties) of Nanomaterials:
    Investigating how nanomaterials exhibit unique physical and electronic behaviors at reduced dimensions, which influence their suitability for various technological applications.

  • Applications in Electro-Chemical Sensing, Photocatalysis, Wastewater Treatment, and Solar Cell Applications:
    Exploring nanomaterials as efficient catalysts and sensors, aiming to enhance energy conversion, environmental remediation, and advanced sensing techniques.

  • Role of Light and Swift Heavy Ion Irradiations on the Various Aspects of Nanomaterials:
    Studying the modifications induced by high-energy ion irradiation in nanostructures, which can tailor their structural, optical, and electrical properties for specialized applications.

  • Simulations on the Various Properties of Nanomaterials, Especially Carbon Nanotubes:
    Utilizing computational techniques to understand the electronic and mechanical behavior of carbon-based nanostructures, which are promising for next-generation nanoelectronics and energy storage devices.

  • Nanocomposites for Energy Storage Applications:
    Developing novel composite materials with enhanced charge storage capabilities for use in supercapacitors and battery technologies.

In addition to these core areas, we are currently expanding our research into the integration of Artificial Intelligence (AI) and Machine Learning (ML) with Density Functional Theory (DFT) to accelerate the study of nanomaterials. These advanced computational approaches allow us to predict material properties, optimize synthesis conditions, and design novel nanostructures with tailored functionalities.

 

.................Our Publications are in the Journals of ......with Impact Factors........................................................................

  1. Chemical Engineering Journal: 16.744

  2. Environmental Chemistry Letters: 13.615

  3. Journal of Energy Storage: 9.400

  4. Sensors and Actuators B: Chemical: 9.221

  5. Journal of Environmental Chemical Engineering: 7.968

  6. Talanta: 6.556

  7. Journal of Alloys and Compounds: 6.371

  8. Materials Chemistry and Physics: 4.778

  9. Industrial & Engineering Chemistry Research: 4

  10.  And the list goen on and on........

Faculty Details

  • Citations 2460
  • HIndex 19
  • i10 Index 27
  • Mobile 7006263637
  • Email gndphy@kashmiruniversity.ac.in
  • Administrative position Held Nodal Officer
  • Resume View



Research Papers Published

  • "Synthesis and characterizations of ferrite nanomaterials for Phenyl Hydrazine chemical sensor applications" J. Nanosci. Nanotech, 14(5): 3765 -3770 {ISSN: 1533-4880} Impact Factor= 1.339
  • "Enhanced photocatalytic degradation of harmful dye and phenyl hydrazine chemical sensing using ZnO nanourchins" Chemical Engineering Journal, 262(0): 588 -596 {ISSN: 1385-8947} Impact Factor= 4.058
  • "Improved dielectric, conductivity and magnetic properties of erbium doped a-Fe2O3 nanoparticles" Journal of Materials Science: Materials in Electronics, 30(24): 20914 -20934 {ISSN: 0957-4522} Impact Factor= 2.195
  • "Removal of heavy metal ions from aqueous system by ion-exchange and biosorption methods" Environmental Chemistry Letters, 17(2): 729 -754 {ISSN: 1610-3661} Impact Factor= 4.617
  • "Structural, dielectric, optical and magnetic studies of dysprosium doped iron oxide nanostructures" aterials Chemistry and Physics, 245(0): 122764 -122764 {ISSN: 334} Impact Factor= 1
  • "Revisiting the Old and Golden Inorganic Material, Zirconium Phosphate: Synthesis, Intercalation, Surface Functionalization, and Metal Ion Uptake" Industrial & Engineering Chemistry Research, 46(4): 22353 -22397 {ISSN: 8976} Impact Factor= 3.5
  • "Magnetically recyclable L-cysteine capped Fe3O4 nanoadsorbent: A promising pH guided removal of Pb (II), Zn (II) and HCrO4-contaminants" Journal of Environmental Chemical Engineering, 9(5): 105880 -105880 {ISSN: 2213-3437} Impact Factor= 5.909
  • "Modification of structural, topographical and magnetic properties induced by Ag ion irradiations in pure and divalent metal (Zn2+ and Co2+)-doped iron oxide thin films" Journal of Materials Science: Materials in Electronics, 33(8): 5661 -5677 {ISSN: 0957-4522} Impact Factor= 2
  • "Enhanced supercapacitor performance of Mg-doped SnO2 nanorods synthesized through the solvothermal method" Bulletin of Materials Science, 46(2): 69 -69 {ISSN: 0250-4707} Impact Factor= 1.9
  • "Metal--Organic Framework-Derived Ni2P Decorated on Bi2S3: A Highly Efficient Z-Scheme Heterojunction for Visible Light Photodegradation of Antibiotics" Industrial \& Engineering Chemistry Research, 1(1): 0 -0 {ISSN: 0888-5885} Impact Factor= 4.326
  • "Enhanced electrochemical performance of MoS2@ CdS@ GO ternary heterostructures for asymmetric supercapacitors" Journal of Energy Storage, 106(0): 114788 -114788 {ISSN: 2352152X} Impact Factor= 9.4
  • "Synergistic Sb2S3-NiS2 heterostructure: A robust electrocatalyst for electrochemical sensing of Hg (II), As (III) ions and carbendazim fungicide" Journal of Environmental Chemical Engineering, 12(3): 112793 -112793 {ISSN: 2213-2929} Impact Factor= 7.4

Books Published

  • "Applications of Ion Exchange Materials in the Environment". Springer, Cham. {ISBN: 978-3-030-10430-6} pp 95-108

Research Projects Details:

Title of the ProjectFunding AgencyDatedAmount (in Rs.)
Effect of Light and Heavy ion irradiation on pure and transition metal doped iron oxide thin filmsIUAC NEW DELHI12-01-2018627,000.00
Study of pure and ion embedded iron oxide Nanostructures for sensing and removal of hazardous wastes from waterDST NEW DELHI02-03-20173,104,420.00
Effect of Light and Heavy ion irradiation on pure and transition metal doped iron oxide thin filmsIUAC DELHI12-01-2018627,000.00
Study of pure and ion embedded iron oxide Nanostructures for sensing and removal of hazardous wastes from waterDST Delhi02-03-20173,104,420.00

Research Scholars:

NameCourseStatusNature
Ruqiya BhatPh.D Awarded Whole Time
Arshad BashirPh.D Awarded Whole Time
Mubashir QayoomPh.D Awarded Whole Time
M. Shunaid :Ph.D Awarded Whole Time
Tasleema IqbalPh.D Awarded Whole Time

Teaching:

DepartmentSubjectCourse TaughtSemester
PhysicsMSC PhysicsEnvironmental Physics1
PhysicsMSC PhysicsMathematical Physics2
PhysicsMSC PhysicsRenewable Energy Resources2
PhysicsMSC PhysicsPhysics of Nanomaterials3