Kailashpati tripathi

@iari.res.in

Scientist
ICAR-Indian Agriculture Research Institute, New Delhi-110012

Kailashpati tripathi


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Dr. Kailashpati Tripathi, PhD, is a scientist working in agricultural chemicals division at the ICAR-Indian Agricultural Research Institute (IARI), New Delhi. He focuses on the design, synthesis, and evaluation of novel agrochemicals to address critical challenges in crop protection and sustainable agriculture. His work integrates organic synthesis with advanced computational tools like QSAR and molecular docking to develop effective, low-toxicity fungicides and herbicides

RESEARCH, TEACHING, or OTHER INTERESTS

Agricultural and Biological Sciences, Analytical Chemistry, Spectroscopy, Multidisciplinary
26

Scopus Publications

259

Scholar Citations

9

Scholar h-index

6

Scholar i10-index

Scopus Publications

  • Evaluation of production systems for sustainable coriander and coriander-cabbage intercropping system in the semi-arid region of India
    Shiv Lal, Gopal Lal, Narottam Kumar Meena, Narendra Chaudhary, Chetan Kumar Jangid, et al.
    Discover Sustainability, 2026
    Coriander (Coriandrum sativum L.) is an important seed spice crop widely grown for its culinary, medicinal, and industrial value. However, its productivity and quality are often inadequate due to poor nutrient management practices and declining soil health due to excessive application of inorganic fertilizers. In the view of rising concerns over environmental safeguard and consumer demands for pesticide and chemical residue-free produces. There is an urgent need to adopt good agronomic practices and sustainable crop production strategies. To address this, a four-year field study (2020-21 to 2023-24) was conducted at Indian Council of Agricultural Research-National Research Centre on Seed Spices (ICAR-NRCSS), Ajmer, Rajasthan, India, to assess the impact of six production systems viz. (PS1) 100% organic, (PS2) 50% organic + 50% seed treatment with beejamrit + ghanjeevamrit @ 250 kg/ha, jeevamrit @ 500 l /ha twice a month with irrigation water, (PS3) integrated (50% organic + 50% in organic), (PS4 ) 25% organic + 25% inorganic + 50% seed treated with beejamrit + ghanjeevamrit @ 250 kg/ha, jeevamrit @ 500 l /ha twice a month with irrigation water, (PS5) 100% inorganic nutrient sources and (PS6) recommended dose on the coriander yield, quality, and soil health under both sole cropping and intercropping with cabbage. The study revealed significant differences among the systems in terms of seed yield, production efficiency, and sustainability yield index (SYI). Among all the treatments, PS4 (comprising 25% organic, 25% inorganic + 50% seed treated with beejamrit + ghanjeevamrit @ 250 kg/ha, jeevamrit @ 500 l /ha twice a month with irrigation water) consistently outperformed over to others. In the intercropping systems, PS4 (25% organic + 25% inorganic + 50% seed treated with beejamrit + ghanjeevamrit @ 250 kg/ha, jeevamrit @ 500 l /ha twice a month with irrigation water) also produced the highest coriander equivalent yield (125.9 q/ha) and revealed marked improvements in the soil fertility. Coriander seed quality assessments indicated that essential oil and linalool content were the highest in PS2 and PS4 treatments, compared to PS5. Post harvest soil samples analysis revealed improved in bulk density (BD), water-holding capacity (WHC), and nutrient availability in organic and integrated systems compared to inorganic based system (PS5). The study demonstrates the potential of integrated nutrient management, particularly PS4, is enhancing coriander productivity, quality, soil health and economic gains, offering a sustainable solution for diverse cropping systems in semi-arid regions of India. Future research should validate these systems across diverse agro-ecologies and integrate precision and participatory approaches to improve adoption and long-term sustainability.
  • The Role of Cytochrome P450 Monooxygenase in Plant Xenobiotic Metabolism
    Rakesh Kumar, Vijay Kumar, Kailash Pati Tripathi, Niraj Guleria, Randeep Kumar, et al.
    Biotechnological Relevance of Cytochrome P450 in Boosting Agricultural Production and Food Security, 2026
    Xenobiotics, which are foreign chemical substances, can significantly impact plant growth, development, and health, posing risks through disruption of physiological processes or accumulation to toxic levels. Plants have evolved sophisticated mechanisms to detoxify these compounds, including metabolic pathways that modify or degrade xenobiotics. This chapter explores the critical role of cytochrome P450 monooxygenases in the metabolism of xenobiotics in plants. Despite these adaptations, high concentrations of xenobiotics can lead to detrimental effects such as reduced crop yield and plant mortality. This chapter emphasizes the importance of understanding xenobiotic effects on plants and developing strategies for mitigation, which is vital for agriculture, environmental sustainability, and human health. Additionally, it highlights the process of phytoremediation, where certain plants can accumulate, transform, or degrade harmful substances, primarily facilitated by cytochrome P450 enzymes (CYPs). These enzymes are integral to the three-step metabolic process that converts toxic compounds into less harmful forms, underscoring their significance in plant defense mechanisms.
  • Synthesis, Antifungal Activity, Molecular Docking, Aquatic Toxicity Prediction and 2D-QSAR of Pyrazole Derivatives as Potential Fungicides for Basmati Rice
    Kailashpati Tripathi, Rakesh Kumar, Sameer Ranjan Misra, Parshant Kaushik, Bishnu Maya Bashyal, et al.
    Chemistry and Biodiversity, 2025
    The major problems in basmati rice are sheath blight and bakanae diseases caused by Rhizoctonia solani and Fusarium fujikuroi , which significantly lower the productivity of basmati rice. However, the excessive use of fungicides can result in pathogen resistance, environmental overload and mammalian toxicity. Therefore, there is a need for new fungicides with novel modes of action, low toxicity and minimal residue. To address this, 20 pyrazole derivatives from alkoxy/halo acetophenones and N , N ‐dimethylformamide dimethyl acetal are synthesized and characterized by various techniques, namely, 1 H NMR, 13 C NMR and LC‐HRMS, expressing fungicidal activity against R. solani and F. fujikuroi . Compound 5r (3‐(5‐fluoro‐2‐hydroxylphenyl) pyrazole) exhibited the highest activity (ED 50 = 2.75 µg mL −1 ) against both R. solani and F. fujikuroi . 2D‐quantitative structure–activity relationship (2D‐QSAR) analysis, particularly MLR (Model 1), with a strong correlation coefficient ( r 2 ) of 0.973, a cross‐validated correlation coefficient ( q 2 ) of 0.84, and an of 0.93, highlighted AI descriptors T_2_F_6, T_2_Cl_7, T_T_O_4 and DeltaAlphaA, the key descriptors influencing fungicidal activity. Molecular docking studies revealed the potential of these pyrazole derivatives as novel fungicides as succinate dehydrogenase inhibitors (SDHI), suggesting valuable reference for design of effective fungicides.
  • Green synthesis, characterization, in silico molecular docking and biological evaluation of imidazolylchalcones as promising fungicide/s and nematicide/s
    Rakesh Kumar, Parshant Kaushik, Kailashpati Tripathi, Rajni Godara, Sameer Ranjan Misra, et al.
    BMC Chemistry, 2025
    Chalcones are known for their broad biological activities, which can be enhanced by incorporating heterocyclic moieties. Imidazole, recognized for its diverse properties, was introduced into a series of imidazolylchalcone derivatives (3a-3o) synthesized via Claisen-Schmidt condensation of benzaldehydes (2a-2o) and 4-(Imidazol-1-yl) acetophenone (1a) using ultrasonication as a green method. These compounds were characterized by spectroscopic techniques such as 1H-NMR, 13C-NMR, LC-HRMS and evaluated for fungicidal and nematicidal activity. Compound 3 h showed highest fungicidal activity against Rhizoctonia solani (ED₅₀ = 0.69 μg/mL), outperforming commercial hexaconazole (ED₅₀ = 3.57 μg/mL). Compound 3d exhibited the highest activity against Fusarium oxysporum (ED₅₀ = 119.22 μg/mL), while 3f was most effective against Meloidogyne incognita (LC₅₀ = 33.62 μg/mL), though less active than commercial Velum Prime (LC₅₀ = 3.46 μg/mL). The compounds potential activity may results from interactions of electronegative atom with enzyme active sites via hydrogen bonding. Docking studies against fungal cutinase and nematode acetylcholinesterase supported the in-vitro findings. Promising compounds will undergo further in-vivo and field trials for antifungal and antinemic applications and developed a potent molecule.
  • Phytomelatonin: Isolation, Methods of Extraction, Detection, and Quantification through High-throughput Technological Interventions
    Muzaffar Hasan, Kalpana Tewari, Vaibhav Kumar, Kailashpati Tripathi, Dilshad Ahmad, et al.
    Phytomelatonin Regulating Development and Stress Protection in Plants, 2025
    Phytomelatonin, a plant-derived analog of melatonin, has garnered significant attention due to its diverse biological roles and potential therapeutic applications. This review explores the isolation, extraction, detection, and quantification methods of phytomelatonin with an emphasis on high-throughput technological advancements. Various techniques employed for isolating phytomelatonin from plant matrices are discussed, highlighting their efficiency and limitations. Methods of extraction, including solvent-based and advanced green chemistry approaches, are analyzed to provide insights into optimizing yield and purity. Detection and quantification strategies, ranging from traditional chromatographic techniques to cutting-edge high-throughput platforms such as LC-MS/MS and capillary electrophoresis, are evaluated for their sensitivity, accuracy, and scalability. The integration of bioinformatics tools and automation in these processes has accelerated research and broadened the applicability of phytomelatonin in pharmacology, agriculture, and nutraceutical industries. This comprehensive review aims to provide a critical understanding of the current methodologies and technological interventions for phytomelatonin research, offering a foundation for future advancements in this field.
  • Development and validation of a sensitive liquid chromatography-tandem mass spectrometry method for the analysis of Mancozeb residues in cauliflower: Risk assessment of real samples
    K. Tripathi, T. Harshangkumar, N. Narayanan, S. Gupta, S.B. Singh, et al.
    Journal of Chromatography Open, 2025
    • Developed a sensitive LC-MS/MS method for Mancozeb residue analysis. • LOQ improved to 0.01 µg g⁻¹, outperforming UV-Visible methods. • Achieved high accuracy (∼93% recovery) and precision (HorRat ∼0.3). • 80% of cauliflower samples showed residues above LOQ levels. • Risk assessment confirmed safety of Mancozeb residues in tested samples. The Dithiocarbamate (DTC) group represents one of the largest consumed fungicides. Presently the most extensively used UV-Visible spectrophotometric method for quantification of DTCs suffers from a lack of sensitivity for trace level detection of residue, poor stability, poor reproducibility, inability to determine LOD, LOQ and chances of matrix interference. In this study a sensitive residue analysis method has been developed and validated for the estimation of dithiocarbamate fungicide, Mancozeb, in cauliflower. Mancozeb was derivatized to a yellow coloured cupric dithiocarbamate complex, which was quantified with mass confirmation by LC–MS/MS. The LC-MS/MS method is considerably more sensitive (LOQ 0.01 µg g -1 ) than the UV-Visible (LOQ 0.1 µg g -1 ), specific (unique MRM transitions), accurate (recovery ∼93 %), precise (HorRat ∼0.3 at LOQ), rugged and associated with well acceptable uncertainty. 80 % of the real samples of cauliflower collected contain residues of DTCs above LOQ. Risk assessment of the real sample with the highest DTC contamination (0.18 µg g -1 ) was conducted. The Theoretical Maximum Residual Contribution (TMRC) of 0.027 mg of Mancozeb/person/day in the Katrain sample was found to be much less than the Maximum Permissible Intake (MPI) of 1.65 mg of mancozeb/person/day and it can be considered safe for human consumption.
  • Synthesis, antifungal evaluation, two-dimensional quantitative structure–activity relationship and molecular docking studies of isoxazole derivatives as potential fungicides
    Kailashpati Tripathi, Parshant Kaushik, Dinesh Kumar Yadav, Rakesh Kumar, Sameer Ranjan Misra, et al.
    Pest Management Science, 2025
    BACKGROUND Sheath blight and bakanae disease, prominent among emerging rice ailments, exert a profound impact on rice productivity, causing severe impediments to crop yield. Excessive use of older fungicides may lead to the development of resistance in the pathogen. Indeed, a pressing and immediate need exists for novel, low‐toxicity and highly selective fungicides that can effectively combat resistant fungal strains. RESULTS A series of 20 isoxazole derivatives were synthesized using alkoxy/halo acetophenones and N , N ‐dimethylformamidedimethylacetal. These compounds were characterized by various spectroscopic techniques, namely 1 H nuclear magnetic resonance (NMR), 13 C NMR and liquid chromatography–high‐resolution mass spectrometry, and were evaluated for their fungicidal activity against Rhizoctonia solani and Fusarium fujikuroi . Compound 5n (5‐(2‐chlorophenyl) isoxazole) exhibited highest activity (effective dose for 50% inhibition [ED 50 ] = 4.43 μg mL −1 ) against R. solani , while 5p (5‐(2,4‐dichloro‐2‐hydroxylphenyl) isoxazole) exhibited highest activity (ED 50 = 6.7 μg mL −1 ) against F. fujikuroi . Two‐dimensional quantitative structural–activity relationship (QSAR) analysis, particularly multiple linear regression (MLR) (Model 1), highlighted chi6chain and DistTopo as the key descriptors influencing fungicidal activity. Molecular docking studies revealed the potential of these isoxazole derivatives as novel fungicides targeting sterol 14α‐demethylase enzyme, suggesting their importance as crucial intermediates for the development of novel and effective fungicides. CONCLUSION All test compounds were effective in inhibiting both fungi, according to the QSAR model, with various descriptors, such as structural, molecular shape analysis, electronic and thermodynamic, playing an important role. Molecular docking studies confirmed that these compounds can potentially replace commercially available fungicides and help control fungal pathogens in rice crops effectively. © 2024 Society of Chemical Industry.
  • Synthesis and Antifungal Activity of Novel Imidazole Derivatives
    Parshant Kaushik, Dinesh K. Yadav, Kailash P. Tripathi, Najam A. Shakil, Virendra S. Rana, et al.
    ACS Agricultural Science and Technology, 2025
    Sclerotium rolfsii, an omnivorous soil fungus, is responsible for diseases in a large number of agricultural and horticultural crops, resulting in huge financial losses. Fusarium oxysporum f. sp. melonis, a wilt fungus, is a devastating soil-borne pathogen that causes huge economic losses to the muskmelon crop, hampering not only its production but also affects its fruit quality. There is a need to develop new antifungal agents owing to the increasing resistance in existing fungicides. In the present study, a series of 21 2-imidazolylchromone derivatives 6a – 6u were synthesized and characterized with the help of IR, NMR ( 1 H & 13 C), and LC-HRMS spectroscopic methods. Out of the 21 synthesized compounds, 17 are reported for the first time in the literature. In vitro fungicidal bioassay results indicated that all synthesized compounds exhibited fungicidal activity against both F. oxysporum and S. rolfsii . Among all synthesized compounds, 6r (6,8-dichloro-2-imidazol-1-yl-chromen-4-one) was found to be the most active against S. rolfsii (ED 50 = 6.78 mg L –1 ) and F. oxysporum (ED 50 = 29.72 mg L –1 ).
  • Mycotoxin Contamination in Seed Spices
    M.K. Mahatma, Kailashpati Tripathi, Y.K. Sharma
    Spices Production to Products Purity and Authenticity, 2025
    Seed spices are annual plants that yield dried seeds to be used as spices. They possess unique flavours due to their essential oil compounds and serve as natural preservatives. These spices are rich in phytochemical components with immense therapeutic potential. However, improper pre-harvest, post-harvest, and storage practices can adversely affect the quality and safety of seed spices. These practices lead to significant quality losses, making the commodities more vulnerable to fungal contamination and insect infestation. Particularly, when seed spices are stored at 25–30°C and with more than 16% moisture content, they become conducive environments for mycotoxin growth. Seed spices, including coriander, cumin, and fenugreek seeds, are susceptible to mycotoxin contamination. Various mycotoxins such as aflatoxins (AFs), ochratoxin A (OTA), fumonisins (FMN), zearalenone (ZEA), citrinin (CIT), and trichothecenes (TCT) (including deoxynivalenol (DON) and nivalenol (NIV)) are present in food commodities. These mycotoxins have been associated with carcinogenic effects and may cause liver damage, necessitating stringent quality control measures during their production and distribution. Various techniques are used for detecting and quantifying mycotoxins, including immunoaffinity column-based analysis, enzyme-linked immunosorbent assay (ELISA), biosensors, thin layer chromatography (TLC), liquid chromatography-mass spectrometry (LC-MS), high performance liquid chromatography (HPLC), gas chromatography (GC), and capillary electrophoresis (CE). LC-MS/MS systems have the potential to detect, identify, and quantify multiple toxins simultaneously. Mycotoxins contamination levels can be managed at pre- and post-harvest stages by following good agricultural practices (GAP), good storage practices (GSP), and good manufacturing practices (GMP). Additionally, the levels of mycotoxins in seed spices can be reduced or eliminated using chemical, physical, and biological methods. It is crucial to ensure that the organoleptic properties and nutritional value of food commodities remain intact during decontamination and that no toxic degradation products are produced during these processes.
  • Synthesis, Characterization and Herbicidal Activity of Isoxazole Derivatives for Control of Barnyard Grass in Rice
    Kailashpati Tripathi, Parshant Kaushik, Virendra Singh Rana, TK Das, Najam Akhtar Shakil
    Pesticide Research Journal, 2025
    A series of 20 isoxazole derivatives were synthesized using alkoxy/halo acetophenones and N, Ndimethylformamide dimethylacetal. These compounds were characterized by various spectroscopic techniques, viz, 1H NMR, 13C NMR and LC-HRMS and evaluated for their herbicidal activity against barnyard grass (Echinochloa crus-galli). In vivo herbicidal bioassay revealed that compound 5r (5-(3-Fluoro-2-hydroxylphenyl) isoxazole) was found to be most active against E. crus-galli (weed control index (WCI) = 53.9%), followed by compound 5a (2-(isoxazol-5-yl)-5-(methoxy) phenol, WCI = 52.9%). These results showed that the compound 5r can be considered as a potential herbicidal agent. The pot experiment indicated that this compound control barnyard grass rapidly with a good tolerance for rice seedlings after post-emergence and soil application.
  • Synthesis, Characterization of Novel Citronellic Acid-Based Amides and Their Activity against Rice Root-Knot Nematode
    Sameer Ranjan Misra, Parshant Kaushik, Virendra Singh Rana, Kailash Pati Tripathi, Dilip Khatri, et al.
    Pesticide Research Journal, 2024
  • Rapid synthesis and antifungal evaluation of prenylated chalcones: A structure-activity relationship and molecular docking study
    Rajni Godara, Kailashpati Tripathi, Rakesh Kumar, Parshant Kaushik, Virendra Singh Rana, et al.
    Results in Chemistry, 2024
  • Exploring natural chalcones: innovative extraction techniques, bioactivities, and health potential
    Mahesh K. Samota, Dinesh Kumar Yadav, Pushpendra Koli, Maninder Kaur, Manpreet Kaur, et al.
    Sustainable Food Technology, 2024
  • Health benefts and medicinal 6 properties of oats molecular mechanisms and disease management
    Muzaffar Hasan, Chirag Maheshwari, Nand Lal Meena, Nitin Kumar Garg, Kailashpati Tripathi, et al.
    Oat Avena Sativa Production to Plate, 2024
  • Unravelling the effect of extraction on anthocyanin functionality and prebiotic potential
    Muzaffar Hasan, Kailashpati Tripathi, Mohd Harun, Veda Krishnan, Rajeev Kaushik, et al.
    Heliyon, 2024
  • Synthesis and Antifungal Activity of Enaminone Derivatives against Sclerotium rolfsii and Fusarium oxysporum
    Riya Kundu, Najam Akhtar Shakil, Virendra Singh Rana, Kailash Pati Tripathi, M Ajith, et al.
    Pesticide Research Journal, 2024
  • Novel indazolylchromones: synthesis, fungicidal evaluation, molecular docking and aquatic toxicity prediction
    Riya Kundu, Najam Akhtar Shakil, Neethu Narayanan, Deeba Kamil, Virendra Singh Rana, et al.
    Frontiers in Chemistry, 2024
  • Nematicidal Efficacy of Cymbopogon nardus, Pelargonium graveolens Essential Oils and Annona squamosa Extract against Meloidogyne incognita and M. graminicola
    Ajith M., Kailashpati Tripathi, Dinesh Kumar Yadav, Parshant Kaushik, Virendra Singh Rana, et al.
    Bioresources, 2024
  • Green synthesis, structure–activity relationships, in silico molecular docking, and antifungal activities of novel prenylated chalcones
    Rajni Godara, Parshant Kaushik, Kailashpati Tripathi, Rakesh Kumar, Virendra Singh Rana, et al.
    Frontiers in Chemistry, 2024
  • Chemical manipulation of source and sink dynamics improves significantly the root biomass and the withanolides yield in Withania somnifera
    Prince Choyal, Maharishi Tomar, Virendra Singh Rana, Manish Kumar Suthar, Kailashpati Tripathi, et al.
    Industrial Crops and Products, 2022
  • Essential oils as green pesticides: An overview
    SANDEEP KUMAR, GAGANA KUAMR MAHAPATRO, DINESH KUMAR YADAV, KAILASHPATI TRIPATHI, PUSHPENDRA KOLI, et al.
    Indian Journal of Agricultural Sciences, 2022
  • Synthesis of benzothiazole-appended bis-triazole-based structural isomers with promising antifungal activity against Rhizoctonia solani
    Ravindra Kumar Upadhyay, Keshav Kumar Saini, Nidhi Deswal, Tejveer Singh, Kailash Pati Tripathi, et al.
    Rsc Advances, 2022
  • Effect of nitrogen nutrition on water-deficit stress tolerance potential of Withania somnifera (L.) Dunal
    Prince Choyal, Kuldeepsingh A. Kalariya, Manish Kumar Suthar, Sukumar Taria, Kailashpati Tripathi, et al.
    Medicinal Plants, 2022
  • Bioefficacy evaluation of ferrocenyl chalcones against Meloidogyne incognita and Sclerotium rolfsii infestation in tomato
    Dinesh K. Yadav, Parshant Kaushik, Kailash Pati Tripathi, Virendra S. Rana, Md Yeasin, et al.
    Journal of Environmental Science and Health Part B Pesticides Food Contaminants and Agricultural Wastes, 2022
  • Antinemic activity of ferrocenyl chalcones against Meloidogyne incognita infestation in tomato
    Indian Journal of Agricultural Sciences, 2021
  • Microwave assisted synthesis, characterization and biological activities of ferrocenyl chalcones and their QSAR analysis: Part II
    Dinesh K. Yadav, Kailash Pati Tripathi, Parshant Kaushik, Pankaj, Virendra S. Rana, et al.
    Journal of Environmental Science and Health Part B Pesticides Food Contaminants and Agricultural Wastes, 2020

RECENT SCHOLAR PUBLICATIONS

  • Pesticide Applications and Their Ecological Footprint: Impact on Nutrient Dynamics and Agronomic Health
    Tripathi, K., Jangir, C., Mahatma , M., Talaviya, H., Kaushik, P. ., Kumar ...
    International Journal of Seed Spices 15 ((1)), https://doi.org/10.56093/IJSS … , 2026
    2026
  • Chemosensitization: a new hope for overcoming fungicide resistance in crop protection
    K Tripathi, R Kumar, P Kaushik, NA Shakil
    Bulletin of Biological and Allied Sciences Research 2026 (1), 125-125 , 2026
    2026
  • Evaluation of production systems for sustainable coriander and coriander-cabbage intercropping system in the semi-arid region of India
    S Lal, G Lal, NK Meena, N Chaudhary, CK Jangid, MK Mahatma, ...
    Discover Sustainability , 2026
    2026
  • Mycotoxin Contamination in Seed Spices
    MK Mahatma, K Tripathi, YK Sharma
    Spices Production to Products, 208-222 , 2026
    2026
  • Synthesis and crystal structure of catechol derivative based molecular tweezer for antifungal activities against R. solani & F. Fujikuroi
    A Jaiswal, M Mishra, M Tauseef, HP Bhasker, K Tripathi, S Mandal, ...
    Discover Chemistry 2 (1), 321 , 2025
    2025
    Citations: 2
  • Synthesis, Antifungal Activity, Molecular Docking, Aquatic Toxicity Prediction and 2D‐QSAR of Pyrazole Derivatives as Potential Fungicides for Basmati Rice
    K Tripathi, R Kumar, SR Misra, P Kaushik, BM Bashyal, DK Yadav, ...
    Chemistry & Biodiversity 22 (12), e01550 , 2025
    2025
  • Phytomelatonin: Isolation, Methods of Extraction, Detection, and Quantification through High-throughput Technological Interventions
    M Hasan, K Tewari, V Kumar, K Tripathi, D Ahmad, N Laskar, N Pandey
    Phytomelatonin, 21-42 , 2025
    2025
  • Pesticide contamination in groundwater: processes, risks, and mitigation strategies
    LK Acharya, PK Paramaguru, K Tripathi, TK Bhoi, P Seth, A Birah
    Discover Agriculture 3 (1), 152 , 2025
    2025
    Citations: 24
  • Synthesis, Characterization and Herbicidal Activity of Isoxazole Derivatives for Control of Barnyard Grass in Rice
    Tripathi, K., Kaushik, P., Rana, V.S., Das, T.K., Shakil, N. A.
    Pesticide Research Journal 37 (1), 1-8 , 2025
    2025
  • Development and validation of a sensitive liquid chromatography-tandem mass spectrometry method for the analysis of Mancozeb residues in cauliflower: Risk assessment of real …
    K Tripathi, T Harshangkumar, N Narayanan, S Gupta, SB Singh, ...
    Journal of Chromatography Open 7, 100226 , 2025
    2025
    Citations: 3
  • Synthesis, antifungal evaluation, two‐dimensional quantitative structure–activity relationship and molecular docking studies of isoxazole derivatives as potential fungicides
    K Tripathi, P Kaushik, DK Yadav, R Kumar, SR Misra, R Godara, ...
    Pest Management Science 81 (5), 2579-2597 , 2025
    2025
    Citations: 9
  • Green synthesis, characterization, in silico molecular docking and biological evaluation of imidazolylchalcones as promising fungicide/s and nematicide/s
    R Kumar, P Kaushik, K Tripathi, R Godara, SR Misra, V Kumar, ...
    BMC chemistry 19 (1), 113 , 2025
    2025
    Citations: 5
  • Analytical Methods and Regulatory Perspectives on Residual Ethylene Oxide and Its Derivatives in Food Products
    H Talaviya, H Korat, K Tripathi, M Hasan, MK Mahatma
    Int. J. Seed Spices 14 (1), 1-15 , 2025
    2025
    Citations: 1
  • Synthesis and antifungal activity of novel imidazole derivatives
    P Kaushik, DK Yadav, KP Tripathi, NA Shakil, VS Rana, S Shahid
    ACS Agricultural Science & Technology 5 (1), 108-114 , 2024
    2024
    Citations: 4
  • Rapid synthesis and antifungal evaluation of prenylated chalcones: A structure-activity relationship and molecular docking study
    R Godara, K Tripathi, R Kumar, P Kaushik, VS Rana, R Kumar, A Mandal, ...
    Results in Chemistry 12, 101912 , 2024
    2024
    Citations: 4
  • Nematicidal Efficacy of Cymbopogon nardus, Pelargonium graveolens Essential Oils and Annona squamosa Extract against Meloidogyne incognita and M. graminicola
    T Ajith, DK Yadav, P Kaushik, VS Rana, NA Shakil, K Pankaj, Y Ren
    BioResources 19 (4), 968 , 2024
    2024
    Citations: 2
  • Essential oils as green pesticides: An overview
    S KUMAR, A VARMA, L SHARMA, K TRIPATHI, P KOLI, P KAUSHIK, ...
    International Journal of Agricultural Sciences and Irrigation Management 1 … , 2024
    2024
  • Health Benefits and Medicinal Properties of Oats: Molecular Mechanisms and Disease Management
    M Hasan, C Maheshwari, NL Meena, NK Garg, K Tripathi, D Ahmad
    Oat (Avena sativa), 189-232 , 2024
    2024
    Citations: 3
  • Unravelling the effect of extraction on anthocyanin functionality and prebiotic potential
    M Hasan, K Tripathi, M Harun, V Krishnan, R Kaushik, G Chawla, ...
    Heliyon 10 (11) , 2024
    2024
    Citations: 7
  • Novel indazolylchromones: synthesis, fungicidal evaluation, molecular docking and aquatic toxicity prediction
    R Kundu, NA Shakil, N Narayanan, D Kamil, VS Rana, KP Tripathi, ...
    Frontiers in chemistry 12, 1411187 , 2024
    2024
    Citations: 7

MOST CITED SCHOLAR PUBLICATIONS

  • Exploring natural chalcones: innovative extraction techniques, bioactivities, and health potential
    MK Samota, DK Yadav, P Koli, M Kaur, M Kaur, H Rani, SS Selvan, ...
    Sustainable Food Technology 2 (5), 1456-1468 , 2024
    2024
    Citations: 44
  • Essential oils as green pesticides: An overview
    S Kumar, GK Mahapatro, DK Yadav, K Tripathi, P Koli, P Kaushik, ...
    Indian J. Agric. Sci 92 (11), 1298-1305 , 2022
    2022
    Citations: 39
  • Pesticide contamination in groundwater: processes, risks, and mitigation strategies
    LK Acharya, PK Paramaguru, K Tripathi, TK Bhoi, P Seth, A Birah
    Discover Agriculture 3 (1), 152 , 2025
    2025
    Citations: 24
  • Synthesis of benzothiazole-appended bis-triazole-based structural isomers with promising antifungal activity against Rhizoctonia solani
    RK Upadhyay, KK Saini, N Deswal, T Singh, KP Tripathi, P Kaushik, ...
    RSC advances 12 (37), 24412-24426 , 2022
    2022
    Citations: 23
  • Normalized difference vegetation index (NDVI) and its role in agriculture
    J Jena, SR Misra, KP Tripathi
    Agriculture and Food: E-Newsletter 1 (12), 387-389 , 2019
    2019
    Citations: 17
  • Chemical manipulation of source and sink dynamics improves significantly the root biomass and the withanolides yield in Withania somnifera
    P Choyal, M Tomar, VS Rana, MK Suthar, K Tripathi, KA Kalariya, ...
    Industrial Crops and Products 188, 115577 , 2022
    2022
    Citations: 11
  • Synthesis, antifungal evaluation, two‐dimensional quantitative structure–activity relationship and molecular docking studies of isoxazole derivatives as potential fungicides
    K Tripathi, P Kaushik, DK Yadav, R Kumar, SR Misra, R Godara, ...
    Pest Management Science 81 (5), 2579-2597 , 2025
    2025
    Citations: 9
  • Green synthesis, structure–activity relationships, in silico molecular docking, and antifungal activities of novel prenylated chalcones
    R Godara, P Kaushik, K Tripathi, R Kumar, VS Rana, R Kumar, A Mandal, ...
    Frontiers in Chemistry 12, 1389848 , 2024
    2024
    Citations: 9
  • Bioefficacy evaluation of ferrocenyl chalcones against Meloidogyne incognita and Sclerotium rolfsii infestation in tomato
    DK Yadav, P Kaushik, KP Tripathi, VS Rana, M Yeasin, D Kamil, Pankaj, ...
    Journal of Environmental Science and Health, Part B 57 (3), 192-200 , 2022
    2022
    Citations: 9
  • Unravelling the effect of extraction on anthocyanin functionality and prebiotic potential
    M Hasan, K Tripathi, M Harun, V Krishnan, R Kaushik, G Chawla, ...
    Heliyon 10 (11) , 2024
    2024
    Citations: 7
  • Novel indazolylchromones: synthesis, fungicidal evaluation, molecular docking and aquatic toxicity prediction
    R Kundu, NA Shakil, N Narayanan, D Kamil, VS Rana, KP Tripathi, ...
    Frontiers in chemistry 12, 1411187 , 2024
    2024
    Citations: 7
  • Phosphate adsorption in aridisols in relation to soil properties
    KP Tripathi, P Kuamr
    2016
    Citations: 7
  • Microwave assisted synthesis, characterization and biological activities of ferrocenyl chalcones and their QSAR analysis: Part II
    DK Yadav, KP Tripathi, P Kaushik, Pankaj, VS Rana, D Kamil, D Khatri, ...
    Journal of Environmental Science and Health, Part B 56 (1), 82-97 , 2020
    2020
    Citations: 6
  • Green synthesis, characterization, in silico molecular docking and biological evaluation of imidazolylchalcones as promising fungicide/s and nematicide/s
    R Kumar, P Kaushik, K Tripathi, R Godara, SR Misra, V Kumar, ...
    BMC chemistry 19 (1), 113 , 2025
    2025
    Citations: 5
  • Unveiling the nutraceutical potential of seed spices for multifaceted health effects
    M Mahatma, K Tripathi, S Saxena, V Bhardwaj
    International Journal of Seed Spices 12 (1), 13-33 , 2022
    2022
    Citations: 5
  • Antinemic activity of ferrocenyl chalcones against Meloidogyne incognita infestation in tomato
    DK Yadav, KP Tripathi, P Pankaj, P Kaushik, VS Rana, D Khatri, ...
    Indian J Agric Sci 91 (2), 305-9 , 2021
    2021
    Citations: 5
  • Physical changes occurring in soils of little Adaman after oil palm plantation establishment
    AD Mongia, AN Ganeshamurthy, KP Tripathi, V Kumar
    Journal of the Indian Society of Soil Science 39 (1), 46-50 , 1991
    1991
    Citations: 5
  • Synthesis and antifungal activity of novel imidazole derivatives
    P Kaushik, DK Yadav, KP Tripathi, NA Shakil, VS Rana, S Shahid
    ACS Agricultural Science & Technology 5 (1), 108-114 , 2024
    2024
    Citations: 4
  • Rapid synthesis and antifungal evaluation of prenylated chalcones: A structure-activity relationship and molecular docking study
    R Godara, K Tripathi, R Kumar, P Kaushik, VS Rana, R Kumar, A Mandal, ...
    Results in Chemistry 12, 101912 , 2024
    2024
    Citations: 4
  • Industrial hemp in India: A booming botanical wonder with endless potentials
    N Biswakarma, K Tripathi, S Arya, T Harshang
    Food Sci Rep 4 (10), 60-67 , 2023
    2023
    Citations: 4

Publications





Scopus ID: 57219851777
Web of Science ResearcherID PXY-0104-2026