Dinhata College

Dr. Rumana Parveen

E-mail: rumanaparveeniacs@gmail.com
Profile URL : https://vidwan.inflibnet.ac.in//profile/488074
Orcid Id: 0000-0002-9579-8857
Address: Dinhata ,West Bengal,India – 736135

Expertise

Organic Chemistry
Expertise in Supramolecular Chemistry

Work experience

  1. DINHATA COLLEGE, COOCHBEHAR 2020 — Present
    Assistant Professor
    Coochbehar
  2. University of Calcutta 2019 — 2020
    Research Associate
    Kolkata

Education

  1. Ph.D. – 2018
    Indian Association for the Cultivation of Science
  2. M.Sc – 2012
    University of Calcutta

Research Project

Facile Green Synthesis to Design Metal Organic Hybrid Materials for
Biomedical Applications
Role: Principal Investigator
Year 2022, Amount 165000
Fuel Triggered Temporal Control Over Self-Assemblies to Develop Life-Like
Systems
Role: Principal Investigator
Year 2022, Amount 1830000

Publication

  1. Supramolecular Hydrogels Developed from Mafenide and Indomethacin as a Plausible Multidrug Self-Delivery System as Antibacterial and Antiinflammatory Topical Gels
    ACS Applied Bio Materials, Year 2022
  2. A mechanistic approach for in‐vitro anticancer activity via nucleic acid fragmentation by copper(II) complex anchored on MCM‐41
    Applied Organometallic Chemistry, Year 2022
  3. A combined experimental and theoretical rationalization of an unusual zinc(ii)-mediated conversion of 18-membered Schiff-base macrocycles to 18-membered imine–amine macrocycles with imidazolidine side rings: an investigation of their bio-relevant catalytic activities
    Chakraborty T.;Mukherjee S.;Parveen R.;Chandra A.;Samanta D.;Das D.
    New Journal of Chemistry, Volume 45, Year 2021, Pages 2550-2562
  4. Green facile synthesis to develop nanoscale coordination polymers as lysosome-targetable luminescent bioprobes
    Karim S.;Mukherjee S.;Mahapatra S.;Parveen R.;Das D.
    Biomaterials Science, Volume 9, Year 2021, Pages 124-132
  5. Supramolecular Gels Derived from Simple Organic Salts of Flufenamic Acid: Design, Synthesis, Structures, and Plausible Biomedical Application
    ACS Biomaterials Science & Engineering, Year 2019
  6. Supramolecular Synthon Approach in Designing Molecular Gels for Advanced Therapeutics
    Parthasarathi Dastidar ., Rajdip Roy ., Rumana Parveen ., Koushik Sarkar .,
    Advanced Therapeutics, Volume 2, Year 2019
  7. Rheoreversible Metallogels Derived from Coordination Polymers
    Chemistry – An Asian Journal, Year 2018
  8. Simple Organic Salts Having a Naphthalenediimide (NDI) Core Display Multifunctional Properties: Gelation, Anticancer and Semiconducting Properties
    Chemistry – An Asian Journal, Year 2018
  9. An easy access to supramolecular gels of tolfenamic acid
    Acta Crystallographica Section A Foundations and Advances, Year 2017
  10. Rationally Developed Organic Salts of Tolfenamic Acid and Its β‐Alanine Derivatives for Dual Purposes as an Anti‐Inflammatory Topical Gel and Anticancer Agent
    Parveen R.;Sravanthi B.;Dastidar P.
    Chemistry – An Asian Journal, Volume 12, Year 2017, Pages 792-803
  11. Supramolecular Gels by Design: Towards the Development of Topical Gels for Self‐Delivery Application
    Chemistry – A European Journal, Year 2016
  12. Easy Access to Supramolecular Gels of the Nonsteroidal Anti‐ inflammatory Drug Diflunisal: Synthesis, Characterization, and Plausible Biomedical Applications
    Chemistry – An Asian Journal, Year 2015
  13. New Series of ZnII/CdII 13. Mixed Ligand Coordination Polymers: Toward the Design of Metallogels
    Crystal Growth & Design, Year 2015
  14. Chapter 2. Designing Soft Supramolecular Materials Using Intermolecular Interactions
    Monographs in Supramolecular Chemistry, Year 0

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