| No. | Student Name (Year) | Thesis Title |
|---|
| 22 | Neelima Koti (2023) | Synthesis and Characterizations of Biodegradable Hyperbranched Polymers for the Targeted Delivery and Treatment of Lung Cancers. |
| 21 | Kajal Singh (2023) | Nanozyme: Dendritic Polymer-Stabilized Reusable Gold Nanocatalysts for Efficient Hydrogenation Reactions. |
| 20 | Eniola Esther Arogunyo (2023) | Development of Functional Plasmonic Nanoceria for the Ultrasensitive Detection of Escherichia coli O157:H7. |
| 19 | Truptiben Patel (2022) | Hyperbranched Polyester-Based Drug Delivery System for The Optical Imaging and Treatment of Cancer. |
| 18 | Nilamben Panchal (2021) | Nanozyme: A Developing Nanotechnology for the Detection of Foodborne Pathogens. |
| 17 | Raghunath Narayanam (2021) | Targeted Combination Therapy of NSCLC using Taxol and Fingolimod Loaded Nanoceria. |
| 16 | Himanshu Polara (2021) | Combination Therapy: Dual drug loaded superparamagnetic iron-oxide nanoparticle for targeted MR imaging and treatment of cancer. |
| 15 | Arth Patel (2020) | Synthesis of Gadolinium-Doxorubicin Prodrug Carrying Functional Nanoceria for the Targeted Drug Delivery and Cancer Treatment. |
| 14 | Zachary Shaw (2020) | Synthesis of New Aliphatic Pseudo-Branched Polyester Co-polymers for Biomedical Applications. |
| 13 | Ren Bean (2019) | “Click-ene” Chemistry: An Efficient Synthetic Strategy for the One-Step Development of Functional Monomers and Polymers. |
| 12 | Saloni Darji (2019) | Nanomedicine-Based Immuno-Chemotherapy for the MR Imaging and Treatment of Triple Negative Breast Cancer. |
| 11 | Bayan Dous (2018) | Synthesis of Doxorubicin-Based Prodrug and Activatable Magnetic Relaxation Nanoprobe for the Imaging and Treatment of Cancer. |
| 10 | Momin Ansare (2018) | Combination Therapy: PARP Inhibitor Synergizes the Therapeutic Efficacy of Doxorubicin in the Treatment of Prostate Cancer. |
| 9 | Tanuja Tummala (2018) | Targeted Triple Drug Regimen for The Treatment of Prostate Cancer. |
| 8 | Elaf Alattas (2017) | Synthesis and Characterization of Enzyme Catalyzed Biodegradable “Click-Ene” Polymers for Targeted Cancer Therapy. |
| 7 | Wadha Alqahtani (2017) | One-Step Synthesis and Characterization of Biodegradable ‘Click-able’ Polyester Polymer for Biomedical Applications. |
| 6 | Shuguftha Naz (2017) | Molecularly Targeted Nanomedicine: Role of Hsp90 Inhibitor and Sophorolipids in The Treatment of Lung Cancer. |
| 5 | James F. Beach (2017) | One-Pot Syntheses and Characterizations of “Click-able” Polyester Polymers for Potential Biomedical Applications. |
| 4 | Riyadh Alnasser (2016) | Synthesis and Characterization of Novel Biodegradable Polyester Polymer for Biomedical Applications. |
| 3 | Shoukath Sulthana (2016) | Development of Functional Nanoceria for Targeted Imaging and Treatment of Non-Small-Cell Lung Cancer. |
| 2 | Jyothi Kallu (2016) | Development of Novel Magnetic Nanotheranostics for the Combination therapy of K-RAS driven NSCLC. |
| 1 | Blaze Heckert (2015) | Development of new Bi-DOTA complex-loaded dendritic polymer nanoparticles for x-ray imaging and treatment of lung cancer. |
