References
- Kumar A, Sharma S. An evaluation of multipurpose oil seed crop for industrial uses (Jatropha curcas L.): a review. Ind Crops Prod. 2008;28(1):1–10.
- Kumar A, Sharma S. Potential non-edible oil resources as biodiesel feedstock: an Indian perspective. Renew Sust Energ Rev. 2011;15(4):1791–1800.
- Gupta A, Kumar A, Sharma S, et al. Comparative evaluation of raw and detoxified mahua seed cake for biogas production. Appl Energ. 2013;102:1514–1521.
- Raghunandan K, McHunu S, Kumar A, et al. Biodegradation of glycerol using bacterial isolates from soil under aerobic conditions. J Environ Sci Health A Tox Hazard Subst Environ Eng.. 2014;49(1):85–92. : .
- Singh NB, Kumar A, Rai S. Potential production of bioenergy from biomass in an Indian perspective. Renew Sust Energ Rev. 2014;39:65–78. Available from: https://doi.org/10.1016/j.rser.2014.07.110.
- Kumar A, Kumar K, Kaushik N, et al. Renewable energy in India: current status and future potentials. Renew Sust Energ Rev. 2010;14(8):2434–2442.
- Kothari R, Pandey A, Ahmad S, et al. Microalgal cultivation for value-added products: a critical enviro-economical assessment. 3 Biotech. 2017; 7 (4): 243.
- Chaturvedi S, Kumar A. Bio-diesel waste as tailored organic fertilizer for improving yields and nutritive values of lycopercicum esculatum (tomato) crop. J Soil Sci Plant Nutr. [Internet]. 2012;12(4):801–810. Available from: http://www.scopus.com/inward/record.url?eid=2-s2.0-84876008521&partnerID=tZOtx3y1.
- Cerning-Beroard J, Le Dividich J. Valeur alimentaire de quelques produits amylaces d'origine tropicale. Ann Zootech. 1976;25(2):155–168.
- Hammond JB, Egg R, Diggins D, et al. Alcohol from bananas. Bioresour Technol. 1996, 56, 1;125–130.
- Sharma N, Kalra KL, Oberoi HS, et al. Optimization of fermentation parameters for production of ethanol from kinnow waste and banana peels by simultaneous saccharification and fermentation. Indian J Microbiol. 2007;47(4):310–316.
- Tewari HK, Marwaha SS, Rupal K. Ethanol from banana peels. Agric Wastes. 1986;16(2):135–146.
- Vyas P, Kumar A, Singh S. Biomass breakdown: a review on pretreatment, instrumentations and methods. 2018, 10, 11;():155–174.
- Vasudevan P, Sharma S, Kumar A. Liquid fuel from biomass: an overview. J Sci Ind Res (India). 2005;64(11):822–831.
- Lancaster M. Green chemistry: an introductory text, Royal Society of Chemistry, 2016.
- Binod P, Satyanagalakshmi K, Sindhu R, et al. Short duration microwave assisted pretreatment enhances the enzymatic saccharification and fermentable sugar yield from sugarcane bagasse. Renew Energ. 2012;37(1):109–116.
- Singh R, Tiwari S, Srivastava M, et al. Microwave assisted alkali pretreatment of rice straw for enhancing enzymatic digestibility. J Energy. 2014;2014(0):1–7.
- Jin S, Zhang G, Zhang P, et al. Microwave assisted alkaline pretreatment to enhance enzymatic saccharification of catalpa sawdust. Bioresour Technol. 2016;221:26–30.
- Lai LW, Idris A. Comparison of steam-alkali-chemical and microwave-alkali pretreatment for enhancing the enzymatic saccharification of oil palm trunk. Renew Energ. 2016;99:738–746.
- Cunniff P Official methods of analysis of AOAC International, Association of Official Analytical Chemists, 1996
- Updegraff DM. Semimicro determination of cellulose in biological materials. Anal Biochem. 1969;32(3):420–424.
- Goering HK, Van Soest PJ. Forage fiber analyses (apparatus, reagents, procedures, and some applications), Washington DC: US Govt. Printing Press, 1979.
- Gothwal R, Gupta A, Kumar A, et al. Feasibility of dairy waste water (DWW) and distillery spent wash (DSW) effluents in increasing the yield potential of Pleurotus flabellatus (PF 1832) and Pleurotus sajor-caju (PS 1610) on bagasse. 3 Biotech. 2012;2(3):249–257.
- Miller GL. Use of dinitrosalicylic acid reagent for determination of reducing sugar. Anal Chem. 1959;31(3):426–428.
- Vogel KP, Dien BS, Jung HG, et al. Quantifying actual and theoretical ethanol yields for switchgrass strains using NIRS analyses. Bioenergy Res. 2011;4(2):96–110.
- Sharma A, Sharma S, Dalela M. Nematicidal activity of Paecilomyces lilacinus 6029 cultured on Karanja cake medium. Microb Pathog. 2014;75:16–20.
- Segal L, Creely L, Martin AEE, et al. An empirical method for estimating the degree of crystallinity of native cellulose using the X-ray diffractometer. Text Res J. [Internet]. 1959;29(10):786–794. Available from: http://journals.sagepub.com/doi/10.1177/004051755902901003.
- Park S, Baker JO, Himmel ME, et al. Cellulose crystallinity index: measurement techniques and their impact on interpreting cellulase performance. Biotechnol Biofuels. [Internet]. 2010;3(1):10. Available from: http://biotechnologyforbiofuels.biomedcentral.com/articles/10.1186/1754-6834-3-10.
- Zhou D, Zhang L, Guo S. Mechanisms of lead biosorption on cellulose/chitin beads. Water Res. 2005;39(16):3755–3762.
- Sharma A, Rajendran S, Srivastava A, et al. Antifungal activities of selected essential oils against Fusarium oxysporum f. sp. lycopersici 1322, with emphasis on Syzygium aromaticum essential oil. J Biosci Bioeng. [ Internet]. 2016;xx(xx):1–6. Available from: http://www.sciencedirect.com/science/article/pii/S1389172316303097%5Cnhttp://linkinghub.elsevier.com/retrieve/pii/S1389172316303097.
- Kumar A, Sharma S, Mishra S. Influence of arbuscular mycorrhizal (AM) fungi and salinity on seedling growth, solute accumulation, and mycorrhizal dependency of Jatropha curcas L. J Plant Growth Regul. 2010;29(3):297–306.
- Tibolla H, Pelissari FM, Menegalli FC. Cellulose nanofibers produced from banana peel by chemical and enzymatic treatment. LWT - Food Sci Technol. 2014;59(2P2):1311–1318.
- Lu X, Xi B, Zhang Y, et al. Microwave pretreatment of rape straw for bioethanol production: focus on energy efficiency. Bioresour Technol. 2011;102(17):7937–7940.
- Gabhane J, Prince William SPM, Vaidya AN, et al. Influence of heating source on the efficacy of lignocellulosic pretreatment - A cellulosic ethanol perspective. Biomass Bioenerg. 2011;35(1):96–102.
- Nomanbhay SM, Hussain R, Palanisamy K. Microwave-assisted alkaline pretreatment and microwave assisted enzymatic saccharification of oil palm empty fruit bunch fiber for enhanced fermentable sugar yield. J Sustain Bioenergy Syst. [Internet]. 2013;3(1):7–17. Available from: http://www.scirp.org/journal/doi.aspx?DOI=10.4236/jsbs.2013.31002.
- Zhu S, Wu Y, Yu Z, et al. Microwave-assisted alkali pre-treatment of wheat straw and its enzymatic hydrolysis. Biosyst Eng. 2006;94(3):437–442.
- Hu Z, Wen Z. Enhancing enzymatic digestibility of switchgrass by microwave-assisted alkali pretreatment. Biochem Eng J. 2008;38(3):369–378.
- Tiwari G, Sharma A, Dalela M, et al. Microwave assisted alkali pretreatment of fruit peel wastes for enzymatic hydrolysis. Indian J Agric Sci. 2017;87(4):496–499.
- Gong G, Liu D, Huang Y. Microwave-assisted organic acid pretreatment for enzymatic hydrolysis of rice straw. Biosyst Eng. [Internet]. 2010;107(2):67–73. Available from: http://www.scopus.com/inward/record.url?eid=2-s2.0-77956922345&partnerID=40&md5=78587c2efdc69b1eaac7071c69735045.
- Wang L, Han G, Zhang Y. Comparative study of composition, structure and properties of Apocynum venetum fibers under different pretreatments. Carbohydr Polym. 2007;69(2):391–397.
- Liu L, Ye XP, Womac AR, et al. Variability of biomass chemical composition and rapid analysis using FT-NIR techniques. Carbohydr Polym. 2010;81(4):820–829.
- Kristensen JB, Thygesen LG, Felby C, et al. Cell-wall structural changes in wheat straw pretreated for bioethanol production. Biotechnol Biofuels. 2008 11. 2008;1(5):1–9.
- de la Hoz A, Díaz-Ortiz Á, Moreno A. Microwaves in organic synthesis. Thermal and non-thermal microwave effects. Chem Soc Rev. [Internet]. 2005;34(2):164–178. Available from: http://xlink.rsc.org/?DOI=B411438H.