Dr Rajendra Kurapati
Assistant Professor Grade I (Chemistry)
  +91 (0)471 - +91-4712778306
  1.  Atlucci C, Kurapati R, Morales-Narváez E; Nanobiophotonics and Related Novel Materials Aimed at Biosciences and Biomedicine Aimed at Biosciences and Biomedicine (Editorial), Frontiers in Bioengineering and Biotechnology 2022 (I. F. – 5.89) DOI: Article
  2. B Ma, Martín C, Kurapati R, Alberto B; Degradation-by-design: how chemical functionalization enhances the biodegradability and safety of 2D materials, Chemical Society Reviews 2020, 49, 6224-6247. (I. F. – 54.56)
  3. Kurapati R, Mukherjee S. P, Martín C, Bepete G, Vazquez E, Pénicaud A, Fadeel B, Alberto B; Degradation of single‐layer and few‐layer graphene by neutrophil myeloperoxidase, Angewandte Chemie International Edition 2018, 57, 11722-117227. (I. F. – 15.34), Press Coverage: www.chemistryviews.org/details/ezine/11094009/Graphene_is_not_Biopersistent.html
  4. Kurapati R, Muzi L, de Garibay APR, Russier J, Voiry D, Vacchi IA, Chhowalla M, Alberto B, Enzymatic biodegradability of pristine and functionalized transition metal dichalcogenide MoS2 nanosheets, Advanced Functional Materials 2017, 27, 1605176. (I.F. –18.81), Press Coverage: http://www.advancedsciencenews.com/mos2-nanosheets-safe-use-humans/
  5. Kurapati R, Backes C, Ménard-Moyon C, Coleman JN, Bianco A; White graphene undergoes peroxidase degradation, Angewandte Chemie International Edition 2016, 55, 5506-5511. (I.F. – 15.34)
  6. Kurapati R, Alberto B; Peroxidase mimicking DNAZymes degrade graphene oxide, Nanoscale 2018, 10, 19316-19321 (2018 Hot Article). (I.F. 7.79)
  7. Kurapati R, Russier J, Squillaci MA, Treossi E, Ménard-Moyon C, Del Rio-Castillo Alberto B; Dispersibility-dependent biodegradation of graphene oxide by myeloperoxidase, Small 2015, 11, 3985-3994. (I.F.13.28) ,     Press Coverage: http://www.sciencedaily.com/releases/2015/06/150601172732.htm
  8. Kurapati R and Raichur AM, Graphene oxide-based multilayer capsules with unique permeability properties: Facile encapsulation of multiple drugs, Chemical Communications 2012, 48, 6013-6015. (I.F. 5.99); Press Coverage: www.chemistryviews.org/details/news/1975647/Graphene_Capsules.html
  9. Kurapati R, Kostas K, Maurizio P, Alberto B; Biomedical uses for 2D materials beyond graphene: current advances and challenges ahead, Advanced Materials 2016, 28, 6052-6074. (I.F. – 30.85)
  10. Kurapati R, Maurice V, Seyeux A, Zanna S, Lorena H. K, Grèzes-Besset C, Berthod L, Marcus P; Advanced protection against environmental degradation of silver mirror stacks for space application, Journal of Materials Science & Technology 2021, 64,1-9. (I. F. – 8.06)
  11. Kurapati R, Martín C, Vincenzo P, Yuta N, Alberto B; Biodegradation of graphene materials catalyzed by eosinophil peroxidase from human immune cells, RSC Faraday Discussions 2021, 227, 189-203. (I. F. 4.0)
  12. Lobo, K.; Sahoo, P.; Kurapati, R.; K, V. K.; Patil, V.; Pandit, A. Matte, H. S. S. R, Additive-free aqueous dispersions of two-dimensional materials with glial cell compatibility and enzymatic degradability, Chemistry – A European Journal 2021, 27, 7434-7443. (I. F. – 5.23)
  13. Kurapati R, Thomas W G; Ashok M R, Recent developments in Layer-by-Layer technique for drug delivery applications, ACS Applied Bio Materials. 2019, 2, 5512-5527.
  14. Kurapati R, Bonachera F, Russier J., Sureshbabu A R., Ménard-Moyon C, Kostarelos K, Alberto B, Covalent chemical functionalization enhances the biodegradation of graphene oxide, 2D Materials 2018, 5, 015020. (I.F. – 7.14)
  15. Sureshbabu AR, Kurapati R, Russier J, Ménard-Moyon C, Bartolini I, Meneghetti M, Kostarelos K, Alberto B; Degradation-by-design: surface modification with functional substrates that enhance enzymatic degradation of carbon nanotubes, Biomaterials 2015, 72, 20-28. (I.F. 12.48)
  16. Kurapati R, Raichur AM; Near-infrared light-responsive graphene oxide composite multilayer capsules: A novel route for remote controlled drug delivery, Chemical Communications 2013, 49, 734-736. (I.F. 5.99)
  17. Kurapati R and Raichur AM; Composite cyclodextrin-calcium carbonate porous micro particles and modified multilayer capsules: novel carriers for encapsulation of hydrophobic drugs, Journal of Materials Chemistry B 2013, 1, 3175-3184. (I.F. 5.04)
  18. Kurapati R, Mahalakshmi V, Raichur AM; Synergistic photothermal antimicrobial therapy by graphene oxide/polymer composite multilayer films; RSC Advances 2016, 6, 39852-398560. (I.F. 3.36)
  19. Rajesh K, Kurapati R and Radhakrishnan TP; Fluorescence enhancement in Langmuir-Blodgett films: role of amphiphile structure, orientation, and assembly, Journal of Physical Chemistry B, 2010, 114, 849-856. (Master Thesis) (I.F.2.99)
  20. Kurapati R, Reddy UV, Raichur AM; Graphene oxide/double-stranded DNA composite liquid crystals and hydrogels, Journal of Chemical Sciences 2016, 128, 325-330. (I.F.1.53)
  21. Lakkakula JR, Kurapati R, Tynga I, Raichur AM, Maçedo Krause RW; Cyclodextrin grafted calcium carbonate vaterite particles: Efficient system for tailored release of hydrophobic anticancer or hormone drugs, RSC Advances 2016, 6, 104537-104548. (I.F.3.36)
  22. Matlapudi MS, Moin A, Medishetti R, Kurapati R, Raichur AM, Prashantha KBR; Dual drug conjugate loaded nanoparticles for the treatment of cancer, Current Drug Delivery 2015, 12, 782-794. (I.F. 2.56)