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Sanjeet Mehariya is an Indian born environmental and industrial biotechnologist at Engineering Department, School of Polytechnics and of the Basic Sciences, University of Campania "Luigi Vanvitelli" and member of ENEA, Italian National Agency for New Technologies, Energy and Sustainable Economic Development, Department of Sustainability-CR Portici. P. Enrico Fermi, 1, 80055 Portici (NA), Italy.''

'''Biography '''

He is born on 21 September 1988 in the Indian state of Rajasthan (Dhani Mehariyon ki, Guhala village) completed his undergraduate studies at The University of Rajasthan in 2009 and continued at the university to earn an MSc in Biotechnology in 2011. After the MSc September 2011, he joined the CSIR-Institute of Genomics and Integrative Biology, Delhi, India as JRF (Project). During his stay at CSIR-IGIB, he has published a few research article in international journals.

Articles and Book Chapters

1.	Mehariya, S., Iovine A., Di Sanzo, G., Larocca, V., Martino, M., Leone G., Casella, P., Karatza, D., Marino, T., Musmarra D., & Molino, A., 2019. Supercritical Fluid Extraction of Lutein from Scenedesmus almeriensis. Molecules, 24(7), p1324.

2.	Leone, G.P., Balducchi, R., Mehariya, S., Martino, M., Larocca, V., Di Sanzo, G., Iovine, A., Casella, P., Marino, T., Karatza, D. and Chianese, S., 2019. Selective Extraction of ω-3 Fatty Acids from Nannochloropsis sp. Using Supercritical CO2 Extraction. Molecules, 24(13), p.2406.

3.	Iovine, A., Cerbone, A., Mehariya, S., Musmarra, D., Casella, P. and Molino, A., 2019. Effect of Mechanical Pretreatment on Nannochloropsis gaditiana on the Extraction of Omega-3 by Using Accelerated Extraction Solvent Technology. Chemical Engineering Transactions, 74, pp.943-948.

4.	Molino, A., Martino, M., Larocca, V., Di Sanzo, G., Spagnoletta, A., Marino, T., Karatza, D., Iovine, A., Mehariya, S. and Musmarra, D., 2019. Eicosapentaenoic Acid Extraction from Nannochloropsis gaditana using Carbon Dioxide at Supercritical Conditions. Marine Drugs, 17(2), p.132.

5.	Siciliano, A., Limonti, C., Mehariya, S., Molino, A. and Calabrò, V., 2019. Biofuel Production and Phosphorus Recovery through an Integrated Treatment of Agro-Industrial Waste. Sustainability, 11(1), p.52.

6.	Molino, A., Mehariya, S., Iovine, A., Larocca, V., Di Sanzo, G., Martino, M., Casella, P., Chianese, S. and Musmarra, D., 2018. Extraction of Astaxanthin and Lutein from Microalga Haematococcus pluvialis in the Red Phase Using CO2 Supercritical Fluid Extraction Technology with Ethanol as Co-Solvent. Marine drugs, 16(11), p.432.

7.	Molino, A., Iovine, A., Casella, P., Mehariya, S., Chianese, S., Cerbone, A., Rimauro, J. and Musmarra, D., 2018. Microalgae Characterization for Consolidated and New Application in Human Food, Animal Feed and Nutraceuticals. International journal of environmental research and public health, 15(11), p.2436.

8.	Sanzo, G., Mehariya, S., Martino, M., Larocca, V., Casella, P., Chianese, S., Musmarra, D., Balducchi, R. and Molino, A., 2018. Supercritical Carbon Dioxide Extraction of Astaxanthin, Lutein, and Fatty Acids from Haematococcus pluvialis Microalgae. Marine Drugs, 16(9), p.334.

9.	Molino, A., Casella, P., Rimauro, J., Cerbone, A., Iovine, A., Mehariya, S., Scamardella, D., Hristoforou, E., Karatza, D., Chianese, S. and Musmarra, D., 2018. Lutein production via carbon dioxide sequestration from Scenedesmus almeriensis microalgae. In Fifth International Symposium on Green Chemistry, Sustainable Development and Circular Economy. GRC.

10.	Molino, A., Casella, P., Rimauro, J., Cerbone, A., Iovine, A., Mehariya, S., Ferraro, A., Hristoforou, E., Karatza, D., Chianese, S. and Musmarra, D., 2018. Effects of cultivation conditions on the production of Scenedesmus almeriensis microalgae. In Fifth International Symposium on Green Chemistry, Sustainable Development and Circular Economy. GRC.

11.	Molino, A., Rimauro, J., Casella, P., Cerbone, A., Larocca, V., Chianese, S., Karatza, D., Mehariya, S., Ferraro, A., Hristoforou, E. and Musmarra, D., 2018. Extraction of astaxanthin from microalga Haematococcus pluvialis in red phase by using Generally Recognized as Safe solvents and accelerated extraction. Journal of biotechnology, 283, pp.51-61.

12.	Mehariya, S., Patel, A.K., Obulisamy, P.K., Punniyakotti, E. and Wong, J.W., 2018. Co-digestion of food waste and sewage sludge for methane production: Current status and perspective. Bioresource technology. 265, pp. 519-531.

13.	Wong, J.W., Kaur, G., Mehariya, S., Karthikeyan, O.P. and Chen, G., 2018. Food waste treatment by anaerobic co-digestion with saline sludge and its implications for energy recovery in Hong Kong. Bioresource technology. 268, pp. 824-828.

14.	Karthikeyan, O.P., Mehariya, S. and Wong, J.W.C., 2017. Bio-refining of food waste for fuel and value products. Energy Procedia, 136, pp.14-21.

15.	Karthikeyan, O.P., Trably, E., Mehariya, S., Bernet, N., Wong, J.W. and Carrere, H., 2017. Pretreatment of food waste for methane and hydrogen recovery: A review. Bioresource technology. 249, pp. 1025-1039.

16.	Patel, S.K., Jeong, J.H., Mehariya, S., Otari, S.V., Madan, B., Haw, J.R., Lee, J.K., Zhang, L. and Kim, I.W., 2016. Production of methanol from methane by encapsulated Methylosinus sporium. Journal of microbiology and biotechnology, 26(12), pp.2098-2105.

17.	Kumar, P., Mehariya, S., Ray, S., Mishra, A. and Kalia, V.C., 2015. Biotechnology in aid of biodiesel industry effluent (glycerol): biofuels and bioplastics. In Microbial factories (pp. 105-119). Springer, New Delhi.

18.	Massini, G., Dottorini, G., Felici, C., Gaetani, A., Lembo, G., Liberatore, R., Mazzurco, Miritana V., Meharya, S., Signorini, A., 2015. Development of Anaerobic Digestion Processes of Unconventional Substrates: Research of Electric System. Program Agreement: ENEA-MSE 2012-14 Report RdS/PAR2014/145 (http://www.enea.it/it/Ricerca_sviluppo/documenti/ricerca-di-sistema-elettrico/biomasse/2014/rds-par2014-145.pdf/view).

19.	Kumar, P., Sharma, R., Ray, S., Mehariya, S., Patel, S.K., Lee, J.K. and Kalia, V.C., 2015. Dark fermentative bioconversion of glycerol to hydrogen by Bacillus thuringiensis. Bioresource technology, 182, pp.383-388.

20.	Kumar, P., Mehariya, S., Ray, S., Mishra, A. and Kalia, V.C., 2015. Biodiesel industry waste: a potential source of bioenergy and biopolymers. Indian journal of microbiology, 55(1), pp.1-7.

21.	Patel, S.K., Kumar, P., Mehariya, S., Purohit, H.J., Lee, J.K. and Kalia, V.C., 2014. Enhancement in hydrogen production by co-cultures of Bacillus and Enterobacter. International Journal of Hydrogen Energy, 39(27), pp.14663-14668.

22.	Kumar, P., Pant, D.C., Mehariya, S., Sharma, R., Kansal, A. and Kalia, V.C., 2014. Ecobiotechnological strategy to enhance efficiency of bioconversion of wastes into hydrogen and methane. Indian journal of microbiology, 54(3), pp.262-267.

23.	Kumar, P., Singh, M., Mehariya, S., Patel, S.K., Lee, J.K. and Kalia, V.C., 2014. Ecobiotechnological approach for exploiting the abilities of Bacillus to produce co-polymer of polyhydroxyalkanoate. Indian journal of microbiology, 54(2), pp.151-157.

References

https://scholar.google.co.in/citations?user=MuhNvJ8AAAAJ&hl=en

https://www.researchgate.net/profile/Sanjeet_Mehariya