Assistant Professor

Dr Chiranjeevi Korupalli

Department of Biological Sciences

Interests

  • Drug Delivery Systems
  • Phototherapy
  • Wound Healing.

Faculty Details

Education

2007

Sri Krishna Devaraya University
India
Bachelors

2010

Indian Institute of Technology Madras
India
Masters

2019

National Tsing Hua University
Taiwan
PhD

Experience

  • May 2022 – August 2024 – Research Fellow – Nanyang Technological University, Singapore
  • August 2020 – July 2021 – Postdoctoral Researcher – National Taiwan University of Science and Technology, Taiwan
  • March 2019 – July 2020 – Postdoctoral Research Fellow – National Tsing Hua University, Taiwan

Research Interest

  • Disease microenvironment modified nanomedicine for the treatment of bacterial infection and cancer eradication, and inflammatory diseases.
  • Pathological biomarkers-responsive drug delivery systems for various biomedical applications.
  • Development of novel therapeutic wound dressings to enhance the wound closing rate.
  • Development of gas transmitters (NO, H2S, H2, CO, and O2) releasing biomaterials and their biomedical applications.

Publications

Journal Articles:

  • Multifunctional manganese oxide-based nanocomposite theranostic agent with glucose/light-responsive singlet oxygen generation and dual-modal imaging for cancer treatment. Korupalli, C., Kuo C.-C., Getachew, G., Dirersa, W.B., Wibrianto A., Rasal, A.S., Chang, J.-Y. Journal of colloid and interface science, 643, 373 (2023).
  • Engineering an Integrated Electroactive Dressing to Accelerate Wound Healing and Monitor Noninvasively Progress of Healing. Nguyen, N., Lin, Z.-H., Barman, S. R., Korupalli. C., Cheng, J-Y., Song, N.-X., Chang, Y., Mi, F.-L., Song H.-L., Sung, H.-W., Lin, Y.-J. Nano Energy, 99, 107393 (2022).
  • Engineering the surface of Ti3C2 MXene Nanosheets for high stability and multimodal anticancer therapy. Korupalli, C., You, K.-L., Getachew, G., Rasal A.S., Dirersa W.B., Fahmi, M.Z., Chang, J.-Y. Pharmaceutics, 14, 304 (2022).
  • Composition engineered ternary copper chalcogenide alloyed counter electrodes for high-performance and stable quantum dot-sensitized solar cells. Rasal, A.S., Chang, T.-W., Korupalli, C., Chang, J.-Y. Composites Part B: Engineering, 232, 109610 (2022).
  • Highly Luminescent, Stable, and Red-Emitting CsMgxPb1–xI3 Quantum Dots for Dual-Modal Imaging-Guided Photodynamic Therapy and Photocatalytic Activity. Getachew, G., Korupalli, C., Rasal, A.S., Dirersa, W.B., Fahmi, M.Z., Chang, J.-Y. ACS Applied Materials and Interfaces, 14, 278 (2022).
  • ROS generation/scavenging modulation of carbon dots as phototherapeutic candidates and peroxidase mimetics to integrate with polydopamine nanoparticles/GOx towards cooperative cancer therapy. Getachew, G., Korupalli, C., Rasal, A.S., Chang, J.-Y. Composites Part B: Engineering, 226, 109364 (2021).
  • Towards Green, Efficient and Stable Quantum-Dot-Sensitized Solar Cells through Nature-Inspired Biopolymer Modified Electrolyte. Rasal, A.S., Korupalli, C., Getachew, G., Chou, T.-Z., Lee, T.-Y., Ghule, A.V., Chang, J.-Y. Electrochemica Acta, 391, 138972 (2021).
  • Recent Advances on Near Infrared Light Responsive Multifunctional Nanostructures for Phototheranostic Applications. Thangudu, S., Kaur, N., Korupalli, C., Sharma, V., Kalluru, P., Vankayala, R. Biomaterials Science, 9, 5472 (2021).
  • Biomimetic Nanoreactor for Cancer Eradication via Win–Win Cooperation between Starvation/Photo/Chemodynamic Therapies. Ciou, T.-Y., Korupalli, C., Chou, T.-H., Hsiao, C.-H., Getachew, G., Bela, S., Changa, J.-Y. ACS applied Biomaterials, 4, 5650 (2021).
  • Efficient Quantum Dot-Sensitized Solar Cells through Sulfur-rich Carbon Nitride Modified Electrolyte. Rasal, A.S., Dehvari, K., Getachew, G., Korupalli, C., Ghule, A.V., Chang, J.-Y. Nanoscale, 13, 5730 (2021).
  • Conductive Materials for Healing Wounds: Their Incorporation in Electroactive Wound Dressings, Characterization, and Perspectives. Korupalli, C., Li, H., Nguyen, N., Mi, F.-L., Chang, Y., Lin, Y.-J., Sung, H.-W. Advanced Healthcare Materials, 10, 2001384 (2021).
  • Recent Advances of Polyaniline-Based Biomaterials for Phototherapeutic Treatments of Tumors and Bacterial Infections. Korupalli, C., Kalluru, P., Nuthalapati, K., Kuthala, N., Thangudu, S., Vankayala, R. Bioengineering, 7, 94 (2020).
  • Modulation of Tumor Microenvironment Using a TLR-7/8 Agonist-Loaded Nanoparticle System that Can Exert Mild Hyperthermia and Immunotherapy for In Situ Cancer Vaccination. Chen, P-M., Pan, W.-Y., Wu, C.-Y., Yeh, C.-Y., Korupalli, C., Luo, P.-K., Chou, C.-J., Chia, W.-T., Sung, H.-W. Biomaterials, 230, 119629 (2020).
  • Bioinspired photosynthesis of H2 gas using a chlorophyll-loaded liposomal nanoplatform that can in situ detect concentration of ROS and restore their homeostasis. Wan, W.-L., Tian, B., Lin, Y.-J., Korupalli, C., Lu, M.-Y., Cui, Q.-H., Wan, D.-H., Chang, Y., Sung, H.-W. Nature communications, 11, 1 (2020).
  • Single-injecting, bioinspired nanocomposite hydrogel that can recruit host immune cells in Situ to elicit potent and long-lasting humoral immune responses. Korupalli, C., Pan, W.-Y., Yeh, C.-Y., Chen, P.-M., Mi, F.-L., Tsai, H.-W., Wai, H.-J., Sung, H.-W. Biomaterials, 216, 119268 (2019).
  • Acidity-triggered charge-convertible nanoparticles that can cause bacterium-specific aggregation in situ to enhance photothermal ablation of focal infection. Korupalli, C., Huang, C.-C., Lin, W.-C., Pan, W.-Y., Lin, P.-Y., Wan, W.-L., Li, M.-J., Chang, Y., Sung, H.-W. Biomaterials, 116, 1 (2017).
  • Photothermal tumor ablation in mice with repeated therapy sessions using NIR-absorbing micellar hydrogels formed in situ. Hsiao, C.-W., Chuang, E.-Y., Chen, H.-L., Wan, D.-H., Korupalli, C., Liao, Z.-X., Chiu, Y.-L., Chia, W.-T., Lin, K.-J.,* Sung, H.-W. Biomaterials, 56, 26 (2015).
  • d-Glucosamine as an efficient ligand for the copper-catalyzed selective synthesis of anilines from aryl halides and NaN3. Krishna, G.T., Kotha, S.S., Korupalli, C., Govindasamy S. Green Chemistry, 13, 2326 (2011).
  • An Efficient Copper(I) Iodide Catalyzed Synthesis of Diaryl Selenides through C(Aryl)-Se Bond Formation Using Solvent Acetonitrile as Ligand. Arpan, D., Korupalli, C., Prasad D.J.C., Rahul S., Govindasamy S. Synthesis, 14, 2297 (2011).
  • Copper (I)-BINOL Catalyzed Domino Synthesis of 1, 4-Benzoxathiines through C(Aryl)-O Bond Formation. 20) Korupalli, C., Arpan, D., Prasad D.J.C., Govindasamy S. Organic Chemistry International (2011).

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