Nawaz Khan, M.Sc.
Raum: | 1113 |
Telefon: | +49.89.289.13714 |
Telefax: | +49.89.289.13718 |
E-Mail: | nawaz.khan(at)tum.de |
Arbeitsgruppe: | Energieneutrale Abwasserbehandlung |
Lebenslauf
| Seit 2025 | Wissenschaftliche Mitarbeiterin am Lehrstuhl für Siedlungswasserwirtschaft der TU München |
| 2024 | Leitender Projektmitarbeiter, Labor für aquatische Toxikologie, CSIR-Indian Institute of Toxicology Research, Lucknow, Indien |
| 2022-2024 | Projektmitarbeiter II, Labor für aquatische Toxikologie, CSIR-Indian Institute of Toxicology Research, Lucknow, Indien |
| 2019-2022 | Projektmitarbeiter I, Labor für aquatische Toxikologie, CSIR-Indian Institute of Toxicology Research, Lucknow, Indien |
| 2015-2017 | Master of Science (M.Sc.), (Umweltmikrobiologie), BBA Central University, Lucknow, Indien |
| 2012-2015 | Bachelor of Science (B.Sc.), (Geologie, Zoologie) JNPG College, Universität Lucknow, Lucknow, Indien |
Publikationen
Singh, A., Singh, E., Khan, N., Chaturvedi, PC. (2024). Effect of biochar on the fate of antibiotic resistant genes and integrons in compost amended agricultural soil. Environmental Science and Pollution Research,PP1-14
Khan, M.A., Khan, N., Ahmad, A., Kumar, R., Singh, A., Chaurasia, D., Neogi, S., Kumar, V. and Bhargava, P.C., (2023). Potential health risk assessment, spatio-temporal hydrochemistry and groundwater quality of Yamuna River basin, Northern India. Chemosphere, 311, p.136880.
Singh, A., Chaurasia, D., Khan, N., Singh, E., & Bhargava, P. C. (2023). Efficient mitigation of emerging antibiotics residues from water matrix: Integrated approaches and sustainable technologies. Environmental Pollution, 121552.
Khan, N., Ahmad, A., Sharma, V., Saha, A. K., Pandey, A., & Bhargava, P. C. (2022). An integrative study for efficient removal of hazardous azo dye using microbe- immobilized cow dung biochar in a continuous packed bed reactor. Renewable Energy, 200, 1589-1601.
Mukhopadhyay, D., Khan, N., Kamal, N., Varjani, S., Singh, S., Sindhu, R., Gupta, P. and Bhargava, P.C., (2022). Degradation of β-lactam antibiotic ampicillin using sustainable microbial peroxide producing cell system. Bioresource Technology, 361, 127605.
Neogi, S., Sharma, V., Khan, N., Chaurasia, D., Ahmad, A., Chauhan, S., ... & Bhargava, P. C. (2022). Sustainable biochar: A facile strategy for soil and environmental restoration, energy generation, mitigation of global climate change and circular bioeconomy. Chemosphere, 293, 133474.
Chauhan, S., Dahiya, D., Sharma, V., Khan, N., Chaurasia, D., Nadda, A. K., ... & Bhargava, P. C. (2022). Advances from conventional to real time detection of heavy metal(loid)s for water monitoring: An overview of biosensing applications. Chemosphere, 136124.
Khan, N., Chowdhary, P., Gnansounou, E., & Chaturvedi, P. (2021). Biochar and environmental sustainability: Emerging trends and techno-economic perspectives. Bioresource Technology, 125102.
Ahmad, A., Chowdhary, P., Khan, N., Chaurasia, D., Varjani, S., Pandey, A., & Chaturvedi, P. (2021). Effect of sewage sludge biochar on the soil nutrient, microbial abundance, and plant biomass: A sustainable approach towards mitigation of solid waste. Chemosphere, 132112.
Ahmad, A., Singh, A. P., Khan, N., Chowdhary, P., Giri, B. S., Varjani, S., & Chaturvedi, P. (2021). Bio-composite of Fe-sludge biochar immobilized with Bacillus Sp. in packed column for bio-adsorption of Methylene blue in a hybrid treatment system: Isotherm and kinetic evaluation. Environmental Technology & Innovation, 23, 101734.
Khan, N., Chowdhary, P., Ahmad, A., Giri, B. S., & Chaturvedi, P. (2020). Hydrothermal liquefaction of rice husk and cow dung in Mixed-Bed-Rotating Pyrolyzer and application of biochar for dye removal. Bioresource Technology, 123294.
Ahmad, A., Khan, N., Giri, B. S., Chowdhary, P., & Chaturvedi, P. (2020). Removal of methylene blue dye using rice husk, cow dung and sludge biochar: Characterization, application, and kinetic studies. Bioresource Technology, 123202.
Chowdhary, P., Bharagava, R. N., Mishra, S., & Khan, N. (2019). Role of industries in water scarcity and its adverse effects on environment and human health. Environmental Concerns and Sustainable Development (pp. 235-256). Springer, Singapore.
Chowdhary, P., Khan, N., & Bharagava, R. N. (2018). Distillery Wastewater: it’s Impact on Environment and Remedies. Environ Anal Ecol Stud, 1, 14-17.
Konferenzbeiträge / Poster
Khan, N & Chaturvedi, P. (2021): Cow dung biochar-based wastewater treatment systems: a cost effective and sustainable technology: International Conference on Biotechnology for Sustainable Agriculture, Environment and Health, jointly organized by Malaviya National Institute of Technology and The Biotech Research Society, India (Poster).
- Khan, N & Chaturvedi, P. (2019): Studies of heavy metals and microbial population density in ground water monitoring and assessment: International Conference on New Horizons in Biotechnology, jointly organized by CSIR- Natinal Institute of Interdiscipilinary Science and Technology and The Biotech Research Society, India (Poster).