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Publications

Stay updated with our latest research findings and publications. We believe in sharing our knowledge with the scientific community to promote collaboration and scientific advancements.

  • Dutta, S.; Haridas, V. Designer Helical Fibers and Tubes: Self-Assembling Hybrid Peptides via Leu/Ile-Phe Zipper. ChemBioChem 2024, e202400808.

  • Kushawaha, R.; Jawla, S.; Haridas, V.; Sinha, A. Dielectric and light scattering features of a pseudopeptide polymer integrated nematic liquid crystal with negative dielectric anisotropy, J. Mater. Chem. C. 2024,  10.1039.D4TC03670K.

  • Verma, D.; Maurya, G. P.; Jawla, S; Haridas, V.; Sinha, A.  Designing Luminescent Liquid Crystals Using an AIE-Active Pseudopeptide Chiral Dopant: Circular Dichroism, Circularly Polarized Luminescence, and Photoluminescence Studies, ACS Appl. Opt. Mater. 2024, 2, 2286−2293.

  • ​Haridas, V.; Maurya, G. P.; Dutta, S. Designer Pseudopeptides: Autofluorescent Polygonal Tubes via Phe-Zipper and Triple Helix. Chem. Sci. 2024, 15, 16908-16916. (Cover Page Article)

  • Rahman, A.; Mondal, S.; Modak, M.; Singh, A.; Thayat, N. S.; Singh, H.; Clegg, J. K.; Poswal, H. K.; Haridas, V.; Thomas, S. P. Large Local Internal Stress in an Elastically Bent Molecular Crystal Revealed by Raman Shifts. Small 2024, 2402120.

  • Haridas, V.; Dutta, S.; Munjal, A.; Singh, S. Inhibitors to Degraders: Changing Paradigm in Drug Discovery. iScience 2024, 27 (5), 109574.

  • Juneja.S., Mishra.S., Maurya.G., Haridas, V., Pandey.S, Highly Efficient Intramolecular Excimer Formation in a Disulfide-Linked Dipyrenyl Compound: Proton Recognition and Fluidity Assessment,      J. Phys. Chem. A,      2023,      127,      10197–10209.

  • Singh, H.; Chenna, A.; Gangwar, U.; Dutta, S.; Kurur, N. D.; Goel, G.; Haridas, V.      Bispidine as a promising scaffold for designing molecular machines.      Org. Biomol. Chem.      2023,      21,      9054-9060

  • Singh, H.; Khatoon, N.; Bhardwaj, S. K.; Kampani, P.; Nayak, T. K.; Haridas, V. Bispidine as a versatile scaffold: From topological hosts to transmembrane transporters. Chem. Bio. Chem. 2023, 24, e2023005.

  • Singh, H.; Pragya, P.; Mittal, A.; Haridas, V. Pseudopeptosomes: Non-Lipidated Vesicular Assemblies from Bispidine-Appended Pseudopeptides. Org. Biomol. Chem. 2023, 21 (17), 3557–3566 (Cover Page Article).

  • Sapala, A. R.; Maurya, G. P.; Singh, H.; Mehta, N.; Karmakar, T.; Haridas, V. Expanded Triazolophanes: A Topological Analysis of Vesicular Assembly. Org. Biomol. Chem. 2023, 21 (26), 5372–5376.

  • Haridas, V.; Jawla, S. Designer Peptides: A Treasure Trove for Self‐Assembled Functional Materials. In Supramolecular Nanotechnology; Azzaroni, O., Conda‐Sheridan, M., Eds.; Wiley, 2023; pp 845–867.

  • Sapra, R.; Gupta, M.; Khare, K.; Chowdhury, P. K.; Haridas, V. Fluorescence by Self-Assembly: Autofluorescent Peptide Vesicles and Fibers. Analyst 2023, 148 (5), 973–984 (Cover Page Article).

  • Arora, G.; Joshi, S.; Singh, H.; Haridas, V.; Senthilkumaran, P. Perturbation of V-Point Polarization Singular Vector Beams. Optics & Laser Technology 2023, 158, 108842.

  • Kumari, A.; Singh, H.; Dhawan, S.; Bhardwaj, S. K.; Haridas, V.; Sinha, A. Liquid Crystal Droplet Design by Using Pseudopeptidic Bottlebrush Polymer Additives. Soft Matter 2022, 18 (40), 7838–7849.

  • Maurya, G. P.; Verma, D.; Sinha, A.; Brunsveld, L.; Haridas, V. Hydrophobicity Directed Chiral Self‐Assembly and Aggregation‐Induced Emission: Diacetylene‐Cored Pseudopeptide Chiral Dopants. Angew Chem Int Ed 2022, 61 (42), e202209806.

  • Patranabish, S.; Dhawan, S.; Haridas, V.; Sinha, A. Designer Peptide‐PVDF Composite Films for High‐Performance Energy Harvesting. Macromol. Rapid Commun. 2022, 43 (23), 2200493.

  • Mehta, D.; Singh, H.; Haridas, V.; Chaudhuri, T. K. Molecular Insights into the Inhibition of Dialysis-Related Β2m Amyloidosis Orchestrated by a Bispidine Peptidomimetic Analogue. Biochemistry 2022, 61 (14), 1473–1484.

  • Khokhar, V.; Singh, H.; Haridas, V.; Pandey, S. Ratiometric Recognition of Protons by a Multiple Tagged Designer Fluorescent Chemosensor. J Fluoresc 2022, 32 (5), 1851–1856.

  • Kumari, A.; Dhawan, S.; Singh, H.; Haridas, V.; Sinha, A. Pseudopeptidic Polymers for Modulating Electro-Optic Switching, Dielectric and Electrical Properties of Liquid Crystal. Journal of Molecular Liquids 2022, 359, 119280.

  • Dhawan, S.; Singh, H.; Dutta, S.; Haridas, V. Designer Peptides as Versatile Building Blocks for Functional Materials. Bioorganic & Medicinal Chemistry Letters 2022, 68, 128733.

  • Kumari, A.; Dhawan, S.; Singh, H.; Haridas, V.; Sinha, A. Pseudopeptidic Polymer Microsphere-Filled Liquid Crystals as High-Performance Light-Scattering Switches. ACS Appl. Polym. Mater. 2022, 4 (1), 64–73.

  • Singh, H.; Chenna, A.; Gangwar, U.; Borah, J.; Goel, G.; Haridas, V. Bispidine as a β-Strand Nucleator: From a β-Arch to Self-Assembled Cages and Vesicles. Chem. Sci. 2021, 12 (47), 15757–15764.

  • Shikha, S.; Dureja, S.; Sapra, R.; Babu, J.; Haridas, V.; Pattanayek, S. K. Interaction of Borohydride Stabilized Silver Nanoparticles with Sulfur-Containing Organophosphates. RSC Adv. 2021, 11 (51), 32286–32294.

  • Sapra, R.; Rajora, A. K.; Kumar, P.; Maurya, G. P.; Pant, N.; Haridas, V. Chemical Biology of Sortase A Inhibition: A Gateway to Anti-Infective Therapeutic Agents. J. Med. Chem. 2021, 64 (18), 13097–13130.

  • Maurya, G. P.; Babu, J.; Haridas, V. Cation-Induced Conformational and Self-Assembly Transitions in Designer Peptides. Mol. Syst. Des. Eng. 2021, 6 (3), 197–201.

  • Dhawan, S.; Devnani, H.; Babu, J.; Singh, H.; Haider, M. A.; Khan, T. S.; Ingole, P. P.; Haridas, V. Supersensitive Detection of Anions in Pure Organic and Aqueous Media by Amino Acid Conjugated Ellman’s Reagent. ACS Appl. Bio Mater. 2021, 4 (3), 2453–2464.

  • Haridas, V. Tailoring of Peptide Vesicles: A Bottom-Up Chemical Approach. Acc. Chem. Res. 2021, 54 (8), 1934–1949.

  • Yadav, A.; Trivedi, S.; Haridas, V.; Essner, J. B.; Baker, G. A.; Pandey, S. Effect of Ionic Liquid on the Fluorescence of an Intramolecular Exciplex Forming Probe. Photochem. Photobiol. Sci. 2020, 19 (2), 251–260.

  • Dhawan, S.; Moudgil, A.; Singh, H.; Gahlawat, S.; Babu, J.; Ingole, P. P.; Das, S.; Haridas, V. Organic Field Effect Transistors Based on Self-Assembling Core-Modified Peptidic Polymers. Molecular Systems Design & Engineering 2020, 5 (4), 847–855.

  • Dhawan, S.; Singh, H.; Ghosh, S.; Khokhar, V.; Pandey, S.; Banerjee, M.; Haridas, V. Unprecedented Formation of Reverse Micellar Vesicles from Psuedopeptidic Bottlebrush Polymers. Chem. Commun. 2020, 56 (80), 12005–12008.

  • Sapra, R.; Verma, R. P.; Maurya, G. P.; Dhawan, S.; Babu, J.; Haridas, V. Designer Peptide and Protein Dendrimers: A Cross-Sectional Analysis. Chem. Rev. 2019, 119, 11391–11441.

  • Dhawan, S.; Ghosh, S.; Ravinder, R.; Bais, S. S.; Basak, S.; Krishnan, N. M. A.; Agarwal, M.; Banerjee, M.; Haridas, V. Redox Sensitive Self-Assembling Dipeptide for Sustained Intracellular Drug Delivery. Bioconjug. Chem. 2019, 30, 2458–2468.

  • Sivadas, V. P.; Dhawan, S.; Babu, J.; Haridas, V.; Nair, P. D. Glutamic Acid-Based Dendritic Peptides for Scaffold-Free Cartilage Tissue Engineering. Acta Biomater. 2019, 99, 196–210.

  • Tieu, T.; Dhawan, S.; Haridas, V.; Butler, L. M.; Thissen, H.; Cifuentes-Rius, A.; Voelcker, N. H. Maximizing RNA Loading for Gene Silencing Using Porous Silicon Nanoparticles. ACS Appl. Mater. Interfaces 2019, 11, 22993–23005.

  • Mishra, R.; Singh, M.; Singh, H.; Haridas, V.; Kurur, N. D. Revealing Signs and Hidden 1 H NMR Coupling Constants in Three-Spin Systems Using Long-Lived Coherences. J. Phys. Chem. Lett. 2019, 10, 7259–7263.

  • Das, E. C.; Dhawan, S.; Babu, J.; Anil Kumar, P.; Kumary, T. V.; Haridas, V.; Komath, M. Self‐assembling Polymeric Dendritic Peptide as Functional Osteogenic Matrix for Periodontal Regeneration Scaffolds—an in Vitro Study. J. Periodontal Res. 2019, 54, 468–480.

  • Das, E. C.; Babu, J.; Dhawan, S.; Kumar PR, A.; Kumary, T. V.; Haridas, V.; Komath, M. Synthetic Osteogenic Matrix Using Polymeric Dendritic Peptides for Treating Human Periodontal Defects – Design and in Vitro Evaluation. Mater. Today Proc. 2019, 15, 199–216.

  • Juneja, S.; Singh, H.; Palui, S.; Trivedi, S.; Singh, S. S.; Haridas, V.; Pandey, S. Unprecedented Intramolecular Association-Induced Fluorescence in Tryptophan-Conjugated Peptidomimetics. J. Phys. Chem. B 2019, 123, 3112–3117.

  • Khokhar, V.; Guha, A.; Dhawan, S.; Trivedi, S.; Haridas, V.; Pandey, S. Spectroscopic Investigation of Linear and Branched Tryptophan-Containing Peptides. J. Photochem. Photobiol. Chem. 2019, 372, 186–195.

  • Nehate, C.; Raynold, A. A. M.; Haridas, V.; Koul, V. Comparative Assessment of Active Targeted Redox Sensitive Polymersomes Based on pPEGMA-S- S-PLA Diblock Copolymer with Marketed Nanoformulation. Biomacromolecules 2018, 19, 2549–2566.

  • Dhawan, S.; Bijesh, M. B.; Haridas, V. Polymersomes from hybrid peptide-based bottlebrush homopolymers. Polymer 2018, 138, 218-228. 

  • Dhawan, S., Sadanandan, S., Haridas, V., Voelcker, N. H., Prieto-Simón, B. Novel peptidylated surface for interference-free electrochemical detection of cardiac troponin I. Biosens. Bioelectron. 2018, 99, 486-492. 

  • Bansal, R., Dhawan, S., Chattopadhyay, S., Maurya, G. P., Haridas, V., Rathore, A. S., Peptide dendrons as thermal stability amplifiers for IgG1 monoclonal antibody biotherapeutics. Bioconjugate Chemistry,2017, 28, 2549-2559. 

  • Sapala, A. S., Dhawan, S., Haridas, V. Vesicles: Self-assembly beyond biological lipids, RSC Adv. 2017, 7, 26608-26624. 

  • Sapala, A. S., Dhawan, S., Haridas, V. Lipidated Psuedopeptides with Mutable Self-Assembly: Fibres to Flowers, Supramolecular Chemistry, 2017, 29, 670-679. 

  • Sharma, S., Thorat, S. H., Gonnade, R. G., Jasinski, J. P., Ray Butcher, R., Haridas, V. Engineering molecular topology: A pseudopeptidic macrocyclic figure–eight motif, Eur. J. Org. Chem., 2017, 1120-1124 (Front Cover) 

  • Haridas, V., Sadanandan, S., Dhawan, S., Mishra, R., Jain, I., Goel, G., Hu, Y., Patel, S. Synthetic minimalistic tryptophan zippers as chiroptical switch, Org. Biomol. Chem., 2017, 15. 1661-1669. 

  • Haridas, V., Bijesh, M. B., Dhawan, S., Shandilya, A. Peptide-triazole hybrid receptors for anion recognition, Sensors and Actuators B, 2017, 245, 903-910. 

  • Srivastava, A., Sharma, S., Sadanandan, S., Gupta, S., Singh, J., Gupta, S., Haridas, V., Kundu, B. Modulation of prion polymerization and toxicity by rationally designed peptidomimetics Biochem. J., 2017, 474, 123-147. 

  • Haridas, V., Kumar, Bhardwaj, I., Venugopalan, P. Spatially placed tryptophan residues: A strategy for generating molecules with unique self-assembly and molecular recognition properties, Chemistry Select, 2017, 2, 130-135. 

  • Bhardwaj, I., Haridas. V. Urea-cored peptides for anion binding and vesicle formation, Arkivoc, 2016, vi, 184-197. 

  • Sapala, A. R., Kundu, J., Chowdhury, P., Haridas, V. Spontaneous vesiculation: A mechanistic insight from the study of hybrid peptide molecules, New J. Chem., 2016, 40, 9907-9911. 

  • Kumar, P. P. P., Kathuria, L., Haridas, V. Cysteine-based silver nanoparticles as dual colorimetric sensors for cations and anions, New Journal of Chemistry, 2016, 40, 8382-8389 

  • Bijesh, M.B., Mishra, R., Kurur, N.D., Haridas, V., Morphology engineering: Dramatic roles of serine and threonine in supramolecular assembly, RSC Advances, 2016, 6 (48), 41761-41764. 

  • Haridas, V., Yadav, A., Sharma, S., Pandey, S., A tryptophan-containing fluorescent intramolecular complex as a designer peptidic proton sensor, Physical Chemistry Chemical Physics, 2016, 18 (22), 15046-15053. 

  • Bhardwaj, I., Jha, D., Admane, P., Panda, A.K., Haridas, V., Self-assembling tryptophan-based designer peptides as intracellular delivery vehicles, Bioorganic and Medicinal Chemistry Letters, 2016, 26 (2), 672-676. 

  • Bijesh, M. B., Dheepthi, N. U., Sapala, A. R., Shandilya, A., Khare, K., Haridas, V. Chiral and non-chiral assemblies from lipidated serine-based pseudopeptidic molecules , Mol. Syst. Des. Eng., 2016, 1, 163-168 

  • Haridas, V., Kumar, P. P. P., Dhawan, S., Devaki, S. J. Designer peptide dendrons and dendrimers based soft materials through self-assembly, Chemistry Select, 2016, 1, 4582-4590 

  • Bhardwaj, I., Haridas, V., Self-assembling asymmetrical tripodal-like peptides as anion receptors, Tetrahedron, 2016, 72 (22), 2900-2905. 

  • Sharma, S., Gopalakrishna, M.V.S., Venugopalan, P., Suresh, C.H., Haridas, V. Stackabilization: self-assembling bispidinophanes, Tetrahedron, 2015, 71, 8302-8306. 

  • Verma, R. P., Shandilya, A., Haridas, V. Peptide dendrimers with designer core for directed self-assembly, Tetrahedron, 2015, 71, 8758-8765. 

  • Haridas, V., Sapala, A.R., Jasinski, J.P., Self-assembling triazolophanes: From croissants through donuts to spherical vesicles, Chemical Communications, 2015, 51 (32), 6905-6908. (Cover page article) 

  • Kumar, P.P.P., Suresh, C.H., Haridas, V., A supramolecular approach to metal ion sensing: Cystine-based designer systems for Cu2+, Hg2+, Cd2+ and Pb2+ sensing ,RSC Advances, 2015, 5 (11), 7842-7847. 4.

  • Haridas, V., Bijesh, M.B., Chandra, A., Sharma, S., Shandilya, A., Self-assembly of lipidated pseudopeptidic triazolophanes to vesicles , Chemical Communications, 2014, 50 (89),13797-13800. 

  • Haridas, V., Sadanandan, S., Collart-Dutilleul, P.-Y., Gronthos, S., Voelcker, N.H., Lysine-appended polydiacetylene scaffolds for human mesenchymal stem cells, Biomacromolecules, 2014, 15 (2), 582-590. 

  • Haridas, V., Praveen Kumar, P.P., Suresh, C.H., Cysteine-based fluorescence "turn-on" sensors for Cu2+and Ag+, RSC Advances, 2014, 4 (99), 56539-56542. 

  • Haridas, V., Sadanandan, S., Dheepthi, N.U., Sortase-based bio-organic strategies for macromolecular synthesis, ChemBioChem, 2014, 15 (13), 1857-1867. 

  • Haridas, V., Sadanandan, S., Gopalakrishna, M.V.S., Bijesh, M.B., Verma, R.P., Chinthalapalli, S., Shandilya, A., Bispidine as a helix inducing scaffold: Examples of helically folded linear peptides Chemical Communications, 2013, 49 (93), 10980-10982. 

  • Naik, S., Haridas, V., Micro-urchin from synthetic self-assembling molecules, RSC Advances, 2013, 3 (44), 21356-21359. 

  • Haridas, V., Naik, S., Natural macromolecular antifreeze agents to synthetic antifreeze agents 

  • RSC Advances, 2013, 3 (34), 14199-14218. 

  • Dubey, P., Gautam, S., Kumar, P.P.P., Sadanandan, S., Haridas, V., Gupta, M.N., Dendrons and dendrimers as pseudochaperonins for refolding of proteins, RSC Advances, 2013, 3 (21), 8016-8020. 

  • Haridas, V., Rajgokul, K.S., Sadanandan, S., Agrawal, T., Sharvani, V., Gopalakrishna, M.V.S., Bijesh, M.B., Kumawat, K.L., Basu, A., Medigeshi, G.R., Bispidine-Amino Acid Conjugates Act as a Novel Scaffold for the Design of Antivirals That Block Japanese Encephalitis Virus Replication, PLoS Neglected Tropical Diseases, 2013, 7 (1), art. no. e2005. 

  • Haridas, V., Sahu, S., Praveen Kumar, P.P., Sapala, A.R., Triazole: A new motif for anion recognition RSC Advances, 2012, 2 (33), 12594-12605. 

  • Gupta, K., Singh, S., Gupta, K., Khan, N., Sehgal, D., Haridas, V., Roy, R.P., A Bioorthogonal Chemoenzymatic Strategy for Defined Protein Dendrimer Assembly, ChemBioChem, 2012, 13 (17), 2489-2494. 

  • Haridas, V., Sadanandan, S., Hundal, G., Suresh, C.H.,1,3-Phenyl linked urea-based receptors for anions and the facile cyclization to imidazolidinedione, Tetrahedron Letters, 2012, 53 (41),5523-5527. 

  • Haridas, V., Sahu, S., Sapala, A.R., Hierarchical organization from self-assembling disulfide macrocycles Chemical Communications, 2012, 48 (32), 3821-3823. 

  • Moore, E., Wang, P.-Y., Vogt, A.P., Gibson, C.T., Haridas, V., Voelcker, N.H., Clicking dendritic peptides onto single walled carbon nanotubes,RSC Advances, 2012, 2 (4),1289-1291. 

  • Haridas, V., Sadanandan, S., Sharma, Y.K., Chinthalapalli, S., Shandilya, A., Bispidine as a secondary structure nucleator in peptides, Tetrahedron Letters, 2012, 53 (6), 623-626. 

  • V. Haridas, A Dream for that Elusive Molecule, FITT forum, IIT Delhi, Vol. 19, No. 2, July 2012, 5-7 

  • V. Haridas, Forced folding of peptide chain: A multi-purpose chemical model (Technology Profile), FITT forum, Vol. 16, No. 1, January 2012,15. 

  • Haridas, V., Sahu, S., Praveen Kumar, P.P., Triazole-based chromogenic and non-chromogenic receptors for halides,Tetrahedron Letters, 2011 , 52 (51), 6930-6934. 

  • Haridas, V., Sharma, Y.K., Sahu, S., Verma, R.P., Sadanandan, S., Kacheshwar, B.G., Designer peptide dendrimers using click reaction, Tetrahedron, 2011,67 (10), 1873-1884. 5 

  • Haridas, V., Sharma, Y.K., Creasey, R., Sahu, S., Gibson, C.T., Voelcker, N.H., Gelation and topochemical polymerization of peptide dendrimers, New Journal of Chemistry, 2011, 35 (2), 303-309. (Cover page article) 

  • Haridas, V., Sahu, S., Venugopalan, P., Halide binding and self-assembling behavior of Triazole-based acyclic and cyclic molecules, Tetrahedron, 2011, 67 (4), 727-733. 

  • Haridas, V., From peptides to non-peptide alpha-helix inducers and mimetics, European Journal of Organic Chemistry, 2009, (30), 5112-5128. 

  • Haridas, V., Sharma, Y.K., Naik, S., Multi-tier dendrimers with an aromatic core, European Journal of Organic Chemistry, 2009, (10), 1570-1577. 

  • Haridas, V., Lal, K., Sharma, Y.K., Upreti, S., Design, synthesis, and self-assembling properties of novel triazolophanes, Organic Letters, 2008, 10 (8),1645-1647. 

  • Haridas, V., Lal, K., Sharma, Y.K., Design and synthesis of triazole-based peptide dendrimers Tetrahedron Letters, 2007, 48 (27), 4719-4722. 

  • Haridas, V., Singh, H., Sharma, Y.K., Lal, K., Engineering macrocyclic figure-eight motif, Journal of Chemical Sciences, 2007, 119 (3), 219-230. (Cover page article) 

  • Design of Functional Synthetic Systems, Ghadiri, M. R., Al-Sayah, M., Ashkenasy, G., Ashkenasy, N., Chavochi, A., Fletcher, J., Haridas, V., Horne, W. S., Huang, Z.-Z., Imming, P., Leman, L., Loutchnikov, A., Motiei, L., Norikane, Y., Rahe, N., Rahimipour, S., Shin, J., van Maarseveen, J., Vodak, D., Yadav, M., Yamasaki, R. Scientific report-2004, The Scripps research Institute 

  • Kennan, A.J., Haridas, V., Severin, K., Lee, D.H., Ghadiri, M.R., A de novo designed peptide ligase: A mechanistic investigation, J. Am. Chem. Soc., 2001, 123 (9), 1797-1803. 

  • Ranganathan, D., Lakshmi, C., Haridas, V., Gopikumar, M., Designer cyclopeptides for self-assembled tubular structures, Pure and Applied Chemistry, 2000, 72 (3), 365-372. 

  • Ranganathan, D., Haridas, V., Nagaraj, R., Karle, I.L., Double-helical cyclic peptides: Design, synthesis, and crystal structure of figure-eight mirror-image conformers of adamantane-constrained cystine-containing cyclic peptide cyclo (Adm-Cyst)3, Journal of Organic Chemistry, 2000 ,65 (14), 4415-4422. 

  • Ranganathan, D., Haridas, V., Kurur, S., Nagaraj, R., Bikshapathy, E., Kunwar, A.C., Sarma, A.V.S., Vairamani, M., Norbornene-constrained cyclic peptides with hairpin architecture: Design, synthesis, conformation, and membrane ion transport, Journal of Organic Chemistry, 2000, 65 (2), 365-374. 

  • Ranganathan, D., Haridas, V., Sundari, C.S., Balasubramanian, D., Madhusudanan, K.P., Roy, R., Karle, I.L., Design, synthesis, crystal structure, and host-guest properties of polymethylene-bridged cysteine-based cyclobisamides: A facile entry into hydrogen-bonded peptide nanotubes, Journal of Organic Chemistry, 1999, 64 (25), 9230-9240. 

  • Ranganathan, D., Haridas, V., Karle, I.L., Diamond crowns: Design, synthesis and X-ray crystallographic studies of a novel family of adamantane-containing crown ethers, Tetrahedron, 1999, 55 (21), 6643-6656. 

  • Ranganathan, D., Thomas, A., Haridas, V., Kurur, S., Madhusudanan, K.P., Roy, R., Kunwar, A.C., Sarma, A.V.S., Vairamani, M., Sarma, K.D., Design, synthesis, and characterization of tyrosinophanes, a novel family of aromatic-bridged tyrosine-based cyclodepsipeptides, Journal of Organic Chemistry, 1999, 64(10), 3620-3629. 

  • Ranganathan, D., Haridas, V., Gilardi, R., Karle, I.L., Self-assembling aromatic-bridged serine-based cyclodepsipeptides (serinophanes): A demonstration of tubular structures formed 6 through aromatic π-π interactions, J. Am. Chem. Soc., 1998, 120 (42),10793-10800. 

  • Ranganathan, D., Haridas, V., Vaish, N.K., Madhusudanan, K.P., Roy, R., Balasubramanian, D., Srinivas,V., The Demonstration of Spontaneous Self-assembly of Novel Fluorescent Proflavin-Lipids, J. Am. Chem. Soc., 1998, 75 (10-12), 598-600. 

  • Ranganathan, D., Haridas, V., Kurur, S., Thomas, A., Madhusudanan, K.P., Nagaraj, R., Kunwar, A.C., Sarma, A.V.S., Karle, I.L., Demonstration of endo-cis-(2S,3R)-Bicyclo[2.2.1]hept-5-en-2,3 dicarbonyl unit as a reverse-turn scaffold and nucleator of two-stranded parallel β- sheets: Design, synthesis, crystal structure, and self-assembling properties of norborneno peptide analogues, J. Am. Chem. Soc., 1998, 120 (33), 8448-8460. 

  • Karle, I.L., Ranganathan, D., Haridas, V., Adamantane-constrained novel cyclodepsipeptides: Crystal structure and self-assembling properties of cyclo(Adm-Ser)2 and cyclo(Adm-Ser-Xaa)2, Xaa = Val/Ser, J. Am. Chem. Soc., 1998 ,120 (28), 6903-6908. 

  • Ranganathan, D., Haridas, V., Karle, I.L., Cystinophanes, a novel family of aromatic-bridged cystine cyclic peptides: Synthesis, crystal structure, molecular recognition, and conformational studies, J. Am. Chem. Soc., 1998, 120 (12), 2695-2702. 

  • Ranganathan, D., Haridas, V., Madhusudanan, K.P., Roy, R., Nagaraj, R., John, G.B., Serine-based cyclodepsipeptides on an adamantane building block: Design, synthesis, and characterization of a novel family of macrocyclic membrane ion-transporting depsipeptides, J. Am. Chem. Soc., 1997, 119 (48), 11578-11584. 

  • Karle, I.L., Ranganathan, D., Haridas, V., Molecular recognition: The demonstration of 1,3-bis[(pyrid-2ylamino)carbonyl]adamantane as an exceptionally versatile assembler of one-dimensional motifs J. Am. Chem. Soc., 1997, 119 (12), 2777-2783. 

  • Ranganathan, D., Haridas, V., Madhusudanan, K.P., Roy, R., Nagaraj, R., John, G.B., Sukhaswami, M.B.Design, Synthesis, and Ion-Transport Properties of a Novel Family of Cyclic, Adamantane-Containing Cystine Peptides', Angewandte Chemie (International Edition in English), 1996, 35 (10), 1105-1107. 

  • Karle, I.L., Ranganathan, D., Haridas, V., Crystal structure of cyclo (Adm-Cyst)3: Example of a topologically defined double-helical cystine cyclic peptide, J. Am. Chem. Soc.,1996, 118 (44), 10916-10917. 

  • Karle, I.L., Ranganathan, D., Haridas, V., A persistent preference for layer motifs in self-assemblies of squarates and hydrogen squarates by hydrogen bonding [X-H···O; X = N, O, or C]: A crystallographic study of five organic salts, J. Am. Chem. Soc., 1996, 118 (30),7128-7133.

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