Welcome to My Homepage |
Dr. K. B. Joshi |
Publications |
21 |
K. Kesharwani, A. Kautu, S. Sharma, R. Singh, V. Kumar, S. K. Tripathi, P. Shukla, K. B. Joshi, Chem. Commun., 2022, 58, 13815-13818 |
20 |
V. Kumar, W. Rensburg, J. L. Snoep, H. H. Paradies, C. Borrageiro, C. Villiers, R. Singh, K. B. Joshi, M. Rautenbach "Antimicrobial nano-assemblies of tryptocidine C, a tryptophan-rich cyclic decapeptide, from ethanolic solutions" Biochimie, 2022, https://doi.org/10.1016/j.biochi.2022.08.017 |
19 |
K. Kesharwani, R. Singh, N. Kumar, N. Singh; P. Gupta and K. B. Joshi, Mercury instructed assembly (MiA): Architecting of a clathrin triskelion inspired highly functional C3-symmetric triskelion nanotorus functional structures into microtorus structures. Nanoscale, 2022, https://doi.org/10.1039/D2NR01524B |
18 |
N. Singh, S. Sharma, R. Singh, S. Rajput, N. Chatopadhya, D. Tiwari, K. B.Joshi, S.Verma, Chemical Science, 2021, 12 (48), 16085-16091 |
17 |
B. Kosti, V. Kshtriya, R. Singh, S. Walia, D. Bhatia, K. B. Joshi and N. Gour, Unusual Aggregates Formed by the SelfAssembly of Proline, Hydroxyproline, and Lysine, ACS Chem. Neurosci., 2021, 17, 3237-3249. |
16 |
N. Singh, R. Singh, M. Shukla, G. Kaul, S Chopra, K. B. Joshi, S. Verma, Peptide Nanostructure-Mediated Antibiotic Delivery by Exploiting H2S-Rich Environment in Clinically Relevant Bacterial Cultures, ACS Infectious Diseases, 2020, 6 (9), 2441-2450. |
15 |
R. Singh, N. K. Mishra, P. Gupta and K. B. Joshi, Self-assembly of sequence shuffled short peptide amphiphile triggered by metal ions into terraced nanodome like structures, Chem. Asian J., 2020, 15, 531- 539. |
14 |
N. Gour, V. Kshtriya, S. Gupta, B. Koshti, R. Singh, D. Patel, K. B. Joshi, “Synthesis and Aggregation Studies of a Pyridothiazole-Based AIEE Probe and Its Application in Sensing Amyloid Fibrillation” ACS Applied Bio Materials, 2019, 2, 4442-4455. |
13 |
Gupta S.; Kashyap M.; Kumar V.; Jain P.; Vinayak, V. and Joshi K. B. ”Peptide mediated facile fabrication of silver nanoparticles over living diatom surface and its application” J. Mol. Liq. 2018, 249, 600. |
12 |
Gupta S.; Singh R.; Kumar, V.; Shukla P. and Joshi, K. B. “Ornamentation of Triskelion Peptide Nanotori to Produce Gold Nanoparticle (AuNP)-Embedded Peptide Nanobangles” Chem. Asian J. 2018, 13, 3285. |
11 |
Gupta, S.; Kumar, V. and Joshi, K. B. “Solvent mediated photo-induced morphological transformation of AgNPs-peptide hybrids in water-EtOH binary solvent mixture” J. Mol. Liq. 2017, 236, 266. |
10 |
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9 |
Mishra N. K.; Kumar V. and Joshi K. B. “Thermoplasmonic effect of silver nanoparticles modulates peptide amphiphile fiber into nanowreath like assembly, Nanoscale, 2015, 7, 20238. |
8 |
Mishra, N. K.; Joshi, K. B.; Verma, S. “Modulating peptide amphiphile morphology by gold nanocolloids” J. Colloid. Inter. Sci. 2015, 455, 145. |
7 |
Mishra, N. K.; Joshi, K. B.; Verma, S. “Inhibition of human and bovine insulin fibril formation by peptide conjugates” Mol. Pharmaceutics, 2013, 10 (10), 3903. |
6 |
Joshi, K. B.; Vlachos, A.; Mikat, V.; Deller, T.; and Heckel, A. “Light-activatable molecular beacons with caged loop sequence” Chem. Commun. 2012, 48, 2733(title page). |
5 |
Schäfer, F.; Joshi K. B.; Fichte, M. A.H.; Mack T.; Heckel, A. “Wavelength-selective uncaging of dA and dC residues”. Org. Lett. 2011, 13, 1450. |
4 |
Joshi, K. B.; Vijaya, K. K.; Verma S. “Self-Assembled Morphologies from C2 - and C3 -Symmetric Biotin Conjugates”. J. Org. Chem. 2010, 75 (12), 4280. |
3 |
Joshi, K. B. Venkatesh V.; Verma S. “Biotin interaction with human erythrocytes: contact on membrane surface and formation of self-assembled fibrous structures”. Chem. Commun. 2010, 46, 3890. |
2 |
Joshi, K. B.; Singh, P.; Verma, S. “Fabrication of platinum nanopillars on peptide-based soft structures using a focused ion beam”. Biofabrication 2009, 1, 025002 (6pp). |
1 |
Joshi, K. B.; Verma, S. “Ditryptophan conjugation triggers conversion of biotin fibers to soft spherical structures”. Angew. Chem. Int. Ed. 2008, 47, 2860. |
64 |
K. Kesharwani, A. Kautu, S. Sharma, R. Singh, V. Kumar, S. K. Tripathi, P. Shukla, K. B. Joshi, Chem. Commun., 2022, 58, 13815-13818 |
63 |
D. Menon, R. Singh, K. B. Joshi, S. Gupta, D. D. Bhatia, "Designer, Programmable DNA-peptide hybrid materials with emergent properties to probe and modulate biological systems" ChemBioChem, 2022, https://doi.org/10.1002/cbic.202200580 |
62 |
V. Kumar, W. Rensburg, J. L. Snoep, H. H. Paradies, C. Borrageiro, C. Villiers, R. Singh, K. B. Joshi, M. Rautenbach "Antimicrobial nano-assemblies of tryptocidine C, a tryptophan-rich cyclic decapeptide, from ethanolic solutions" Biochimie, 2022, https://doi.org/10.1016/j.biochi.2022.08.017 |
61 |
K. Kesharwani, R. Singh, N. Kumar, N. Singh; P. Gupta and K. B. Joshi, Mercury instructed assembly (MiA): Architecting of a clathrin triskelion inspired highly functional C3-symmetric triskelion nanotorus functional structures into microtorus structures. Nanoscale, 2022, 14, 10200-10210 |
60 |
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59 |
M. J. Khan, K. B. Joshi and V. Vinayak, "Nano engineering diatoms in microfluidic lab on chip devices" Applications of Multifunctional Nanomaterials(Book Chapter); 2022, ISBN: 9780128205570, Editors: Sabu Thomas, Nandakumar Kalarikkal, Ann Rose Abraham, https://www.elsevier.com/books/applications-of-multifunctional-nanomaterials/thomas/978-0-12-820557-0 |
58 |
S. K. Tripathi; K. Kesharwani; G. Kaul; A. Akhir; D. Saxena; R. Singh; N. K. Mishra; A. Pandey; S. Chopra and K.B. Joshi, Amyloid-β inspired short peptide amphiphile facilitates synthesis of silver nanoparticles as potential antibacterial agents.ChemMedChem, 2022, https://doi.org/10.1002/cmdc.202200251 |
57 |
A. Ahirwar; K. Kesharwani; R. Deka; S. Muthukumar; M. J. Khan; A. Rai; V. Vinayak; S. Varjani; K. B. Joshi; and S. Morjaria, Microalgal drugs: A promising therapeutic reserve for the future. J. Biotech. 2022, 349, 32-46. |
56 |
V. Kshtriya; B. Koshti; T. Mehmood; R. Singh; K. B. Joshi; S. Bandyopadhyay; D. W Boukhvalov; J P. Reddy and N.Gour, A new aggregation induced emission enhancement (AIEE) dye which self-assembles to panchromatic fluorescent flowers and has application in sensing dichromate ions. Soft Matter, 2022, 18, 3019-3030 |
55 |
Khan M. J.; Suryavanshi, V. J.; Joshi, K. B.; Gangadharan, P. and Vinayak, V. “Photosynthetic microalgalmicrobial fuel cells and its future upscaling aspects” Handbook of Algal Biofuels-Elsevier, 2022, Pages 363-384. eBook ISBN: 9780128241813 |
54 |
N. Singh, S. Sharma, R. Singh, S. Rajput, N. Chatopadhya, D. Tiwari, K. B.Joshi, S.Verma, Chemical Science, 2021, 12 (48), 16085-16091 |
53 |
B. Kosti, V. Kshtriya, R. Singh, S. Walia, D. Bhatia, K. B. Joshi and N. Gour, Unusual Aggregates Formed by the SelfAssembly of Proline, Hydroxyproline, and Lysine, ACS Chem. Neurosci., 2021, 17, 3237-3249. |
52 |
V. Kshtriya, B. Kosti, A. Gangrade, A. Haque, R. Singh, K. B. Joshi, D. Bhatia and Nidhi Gour, Self-assembly of a Benzothiazolone Conjugate to Panchromatic Fluorescent Fibres and its Application in Cellular Imaging, New J. Chem., 2021, 45, 17211-17221. |
51 |
K. Kesharwani, R. Singh, M.J. Khan, V. Vinayak, K. B. Joshi, Hydrophobized short peptide amphiphilefunctionalized gold nanoparticles as antibacterial biomaterials, ChemistrySelect, 2021, 6, 6827 - 6833. |
50 |
N. Singh, R. Singh, S. Sharma, K. Kesharwani, K. B. Joshi, S. Verma, Transition-metal ion-mediated morphological transformation of pyridine-based peptide nanostructures, New J. Chem., 2021, 45(1), 153-161. |
49 |
M. J. Khan, N. Bawra, A. Verma, V. Kumar, A. Pugazhendhi, K. B. Joshi, V.Vinayak, Cultivation of diatom Pinnularia saprophila for lipid production: A comparison of methods for harvesting the lipid from the cells, Bioresource Technology, 2021, 319, 124129. |
48 |
M. J. Khan, R. Singh, K. Shewani, P. Shukla, P.V. Bhaskar, K. B. Joshi, V. Vinayak, Exopolysaccharides directed embellishment of diatoms triggered on plastics and other marine litter, Scientific reports, 2020, 10(1), 1-11. |
47 |
K. B. Joshi, V. Vinayak, R. Singh, K. Kesharwani, Peptide nanotechnology: a bio inspired nano-strategy to combat with reproductive diseases, ISSRF Newsletter, 2020, 26(26), 56-59. |
46 |
N. Singh, R. Singh, K. B. Joshi, S. Verma, Constitutionally Isomeric Aromatic Tripeptides: Self-Assembly and Metal-Ion-Modulated Transformations, ChemPlusChem, 2020, 85(9), 2001-2009. |
45 |
N. Singh, R. Singh, M. Shukla, G. Kaul, S Chopra, K. B. Joshi, S. Verma, Peptide Nanostructure-Mediated Antibiotic Delivery by Exploiting H2S-Rich Environment in Clinically Relevant Bacterial Cultures, ACS Infectious Diseases, 2020, 6 (9), 2441-2450. |
44 |
R. Singh, N.K. Mishra, N. Singh, K. B. Joshi, Transition Metal Ions Induced Secondary Structural Transformation in Hydrophobized Short Peptide Amphiphile, New J. Chem., 2020, 44, 9255-9263. |
43 |
R. Singh, M J. Khan, J. Rane, A. Gajbhiye, V. Vinayak, K. B. Joshi, Biofabrication of Diatom Surface by Tyrosine‐Metal Complexes: Smart Microcontainers to Inhibit Bacterial Growth, ChemistrySelect, 2020, 5, 3091-3097. |
42 |
R. Singh, N. K. Mishra, P. Gupta and K. B. Joshi, Self-assembly of sequence shuffled short peptide amphiphile triggered by metal ions into terraced nanodome like structures, Chem. Asian J., 2020, 15, 531- 539. |
41 |
N. Gour, V. Kshtriya, S. Gupta, B. Koshti, R. Singh, D. Patel, K. B. Joshi, “Synthesis and Aggregation Studies of a Pyridothiazole-Based AIEE Probe and Its Application in Sensing Amyloid Fibrillation” ACS Applied Bio Materials, 2019, 2, 4442-4455. |
40 |
Khan M. J.; Singh R.; Joshi K. B.; Vinayak V. “TiO2 doped polydimethylsiloxane (PDMS) and Luffa cylindrica based photocatalytic nanosponge to absorb and desorb oil in diatom solar panels” RSC Adv, 2019, 9, 22410. |
39 |
Singh R.; Suryavanshi V..; Vinayak, V. and Joshi, K. B. “Gold-Ions-Mediated Diproline Peptide Nanocarpets and Their Inhibition of Bacterial Growth” ChemistrySelect, 2019, 4(19), 5810-5816. |
38 |
Vinayak, V.; Joshi K. B. and Sharma P. M. Book: Diatoms: Fundamentals & Applications Ed.: J. Seckbach & R. Gordon. Beverly, MA, USA, Wiley- Scrivener. Chapter Title: Diafuel© (diatom biofuel) vs Electric vehicles a basic comparison: A high potential renewable energy source to make India energy independent. 13: 978-1119370215/10: 1119370213(2019). |
37 |
Kumar, K. Singh H.; Vanita, V. Singh R.; Joshi, K. B.; Bhargava, G.; Kumar, S. Singh P. “Coronene diimide-based self-assembled (fibre-to-disc) fluorescent aggregates for visualization of latent fingerprints” Sensors and Actuators B: Chemical, 2019, 283 651. |
36 |
Gupta S.; Singh R.; Kumar, V.; Shukla P. and Joshi, K. B. “Ornamentation of Triskelion Peptide Nanotori to Produce Gold Nanoparticle (AuNP)-Embedded Peptide Nanobangles” Chem. Asian J. 2018, 13, 3285. |
35 |
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34 |
Gautam. S.; Kashyap M.; Kumar, V.; Shukla P.; Joshi K. B.; Vinayak, V. “Fast Fourier infrared spectroscopy to characterize the biochemical composition in diatoms“ J. Biosci., 2018, Sep;43(4):717. |
33 |
Kumar V.; Singh R.; Thakur, S. Joshi, K. B. and Vinayak, V. 2018, “ Doping of magnetite nanoparticles facilitates clean harvesting of diatom oil as biofuel for sustainable energy„ Mater. Res. Express, 2018, 5, 045503. |
32 |
Kumar, V.; Singh R. and Joshi, K. B. “Biotin-avidin interaction triggers conversion of triskelion peptide nanotori into nanochains” New J. Chem. 2018, 42, 3452-3458. |
31 |
Gupta S.; Kumar A. and Joshi K. B. “Elucidation of photo-induced electron transfer in water-methanol binary solvent system via short peptide-amino acid pairs” J. Photochem. Photobiol. A- Chemistry, 2018, 356, 556. |
30 |
Diafuel©: 2018 Trademark application no 3778882. Trade Marks Journal No: 1846 , 23/04/2018, Class 4 (published) Under Project: "Construction of diatoms solar panels for bio-fuel production”. DST NANOMISSION Authors/Applicants : Vandana Vinayak; Richard Gordon; Khashti Ballabh Joshi; Benoît Schoefs |
29 |
Vinayak V.; Joshi K. B.; Gordon, R.; Schoefs, B. Diatom Nanotechnology D. Losic, (Ed.) London- Royal Society of Chemistry, Book Chapter Title: Nanoengineering the diatom surface for plausible applications. ISBN: 978-3-319-2-0333-1(2018). |
28 |
Gupta S.; Kashyap M.; Kumar V.; Jain P.; Vinayak, V. and Joshi K. B. ”Peptide mediated facile fabrication of silver nanoparticles over living diatom surface and its application” J. Mol. Liq. 2018, 249, 600. |
27 |
Singh R.; Gupta, S.; Kumar, V.; Joshi, K. B. “Hierarchical self assembly of diproline peptide into dumbbells and copper ions-promoted robust disc” ChemNanoMat, 2017, 3, 620. |
26 |
Vinayak, V.; K. B. Joshi; Gordon, R.; & Schoefs, B. “Nanoengineering the diatom surface for plausible applications” Book Chapter in: Diatom Nanotechnology. D. Losic, (Ed.) London, Royal Society of Chemistry, 2018, ISBN: 978-3-319-2-0333-1. |
25 |
Gupta, S.; Kumar, V. and Joshi, K. B. “Solvent mediated photo-induced morphological transformation of AgNPs-peptide hybrids in water-EtOH binary solvent mixture” J. Mol. Liq. 2017, 236, 266. |
24 |
Kumar, V.; Gupta, S.; Mishra N. K.; Singh R.; Yadav S. K. and Joshi, K. B. “ Laser induced fabrication of gold nanoparticles on Shellac driven peptide nanostructures ”Mater. Res. Exp. 2017, 4 , 035036. |
23 |
Kumar, V.; Mishra N. K.; Gupta, S. and Joshi, K. B. “Short Peptide Amphiphile Cage Facilitate Engineering of Gold Nanoparticles Under the Laser Field” ChemistrySelect, 2017, 2, 211. |
22 |
Vinayak V.; Kumar, V.; Kashyap, M. and Joshi K. B. “Fabrication of resonating microfluidics chamber for biofuel production in diatoms” ICEE, 2016, IIT- Bombay (https://ieeexplore.ieee.org/document/8074628). |
21 |
Gautam S.; Kashyap M.; Gupta S.; Kumar V.; Schoefs B.; Gordon R.; Jeffryes C.; Joshi K. B. and Vinayak V. “Metabolic engineering of TiO2 nanoparticles in Nitzschia palea to form diatom nanotubes: an ingredient for solar cells to produce electricity and biofuel” RSC Adv., 2016, 6, 97276. |
20 |
Kumar, V.; Gupta, S.; Rathod, S.; Vinayak, V. and Joshi, K. B. “Biomimetic Fabrication of Biotinylated Peptide Nanostructures upon Diatom Scaffold; A Plausible Model for Sustainable Energy, RSC Adv, 2016, 6, 73692. |
19 |
Kumar V.; Krishna, K. V.; Khanna, S. and Joshi K. B., “Aggregation propensity of amyloidogenic and elastomeric dipeptides constituents”, Tetrahedron, 2016, 72, 5369. |
18 |
Mishra N. K.; Kumar V. and Joshi K. B. “Thermoplasmonic effect of silver nanoparticles modulates peptide amphiphile fiber into nanowreath like assembly, Nanoscale, 2015, 7, 20238. |
17 |
Mishra N. K.; Kumar V. and Joshi K. B. “Fabrication of Gold Nanoparticles on Biotin -di-Tryptophan Scaffold for Plausible Biomedical Applications” RSC Adv, 2015, 5, 64387. |
16 |
Mishra, N. K.; Joshi, K. B.; Verma, S. “Modulating peptide amphiphile morphology by gold nanocolloids” J. Colloid. Inter. Sci. 2015, 455, 145. |
15 |
Joshi, K. B.; Singh P. “L-Proline induced self-assembly of indolicidin derived palindromic tripeptide” Tetrahedron Lett, 2014, 55, 3534. |
14 |
Mishra, N. K.; Joshi, K. B.; Verma, S. “Inhibition of human and bovine insulin fibril formation by peptide conjugates” Mol. Pharmaceutics, 2013, 10 (10), 3903. |
13 |
Joshi, K. B.; Vlachos, A.; Mikat, V.; Deller, T.; and Heckel, A. “Light-activatable molecular beacons with caged loop sequence” Chem. Commun. 2012, 48, 2733(title page). |
12 |
Schäfer, F.; Joshi K. B.; Fichte, M. A.H.; Mack T.; Heckel, A. “Wavelength-selective uncaging of dA and dC residues” Org. Lett. 2011, 13, 1450. |
11 |
Rodrigues-Correia, A.; Koeppel, M.; Schäfer, F.; Joshi, K. B.; Mack, T.; Heckel, A. “Comparison of the duplex destabilizing effects of nucleobase-caged oligonucleotides”. Anal. Bioanal. Chem. 2011, 399, 441. |
10 |
Joshi, K. B.; Vijaya, K. K.; Verma S. “Self-Assembled Morphologies from C2 - and C3 -Symmetric Biotin Conjugates” J. Org. Chem. 2010, 75 (12), 4280. |
9 |
Joshi, K. B. Venkatesh V.; Verma S. “Biotin interaction with human erythrocytes: contact on membrane surface and formation of self-assembled fibrous structures” Chem. Commun. 2010, 46, 3890. |
8 |
Joshi, K. B.; Singh, P.; Verma, S. “Fabrication of platinum nanopillars on peptide-based soft structures using a focused ion beam” Biofabrication 2009, 1, 025002 (6pp). |
7 |
Joshi, K. B.; Verma, S. “Bisection of biotinylated soft spherical structures” Biophys. Chem. 2009, 140, 129. |
6 |
Joshi, K. B.; Verma, S. “Participation of aromatic side chains in diketopiperazine ensembles” Tetrahedron Lett, 2008, 49, 4231. |
5 |
Joshi, K. B.; Verma, S. “Ditryptophan conjugation triggers conversion of biotin fibers to soft spherical structures”. Angew. Chem. Int. Ed. 2008, 47, 2860. |
4 |
Joshi, K. B.; Verma, S. “Sequence Shuffle Controls Morphological Consequences in a self-assembling tetrapeptide” J. Pep. Sci. 2008, 14, 118. |
3 |
Verma, S.; Joshi, K. B.; Ghosh, S. “Peptide-based soft materials as potential drug delivery vehicles”. Med. Chem. 2007, 3, 605. |
2 |
Joshi, K. B.; Verma, S. “Monovalent cation-promoted ordering of a glycine-rich cyclic peptide” Tetrahedron, 2007, 25, 5602. |
1 |
Joshi, K. B.; Verma, S. “Ordered self-assembly of a glycine-rich linear and cyclic hexapeptide: Contrasting ultrastructural morphologies of fiber growth” Supramol. Chem. 2006, 18, 405. |