新加坡六合彩开奖直播

 

Publications

Peer-Reviewed Journal Publications (Selected)

1. Khandelwal K., Boahene P., Nanda S., Dalai A.K. (2023) A review of the design and performance of catalysts for hydrothermal gasification of biomass to produce hydrogen-rich gas fuel. Molecules 28, 5137.

2. Khandelwal K., Boahene P., Nanda S., Dalai A.K. (2023) Hydrogen production from supercritical water gasification of model compounds of crude glycerol from biodiesel industries. Energies 16, 3746.

3. Nanda S., Sarker T.R., Kang K., Li D., Dalai A.K. (2023) Perspectives on thermochemical recycling of end-of-life plastic wastes to alternative fuels. Materials 16, 4563.

4. Podder J., Patra B.R., Pattnaik F., Nanda S., Dalai A.K. (2023) A review of carbon capture and valorization technologies. Energies 16, 2589.

5. Pattnaik F., Hans N., Patra B.R., Nanda S., Kumar V., Naik S.N., Dalai A.K. (2023) Valorization of wild-type Cannabis indica by supercritical CO2 extraction and insights into the utilization of raffinate biomass. Molecules 28, 207.

6. Sarker T.R., Nanda S., Dalai A.K. (2023) Parametric studies on hydrothermal gasification of biomass pellets using Box-Behnken experimental design to produce fuel gas and hydrochar. Journal of Cleaner Production 388, 135804.

7. Sarker T.R., Nanda S., Meda V., Dalai A.K. (2023) Densification of waste biomass for manufacturing solid biofuel pellets: A review. Environmental Chemistry Letters 21, 231鈥264.

8. Vo D.V.N., Jalil A.A., Nanda S., Nguyen V.H. (2023) Thematic issue: Advanced biohydrogen production processes from organic materials. Biomass Conversion and Biorefinery 13, 8381.

9. Sarker T.R., Nanda S., Dalai A.K. (2022) Hydrogen-rich gas production from hydrothermal gasification of fuel pellets obtained from co-pelletization of agricultural residues. International Journal of Hydrogen Energy.

10. Azargohar R., Nanda S., Cheng H., Dalai A.K. (2022) Potential application of canola hull fuel pellets for the production of synthesis gas and hydrogen. Energies 15, 8613.

11. Jha S., Nanda S., Acharya B., Dalai A.K. (2022) A review of thermochemical conversion of waste biomass to biofuels. Energies 15, 6352.

12. Jha S., Okolie J.A., Nanda S., Dalai A.K. (2022) A review of biomass resources and thermochemical conversion technologies. Chemical Engineering & Technology 45, 791鈥799.

13. Dalai A.K., Nanda S., Zheng Y., Yadav G.D., Roberts W., Dadyburjor D. (2022) Preface for Special Issue on 鈥淕reen catalysis for the production and upgrading of clean fuels and chemicals鈥. Catalysis Today 404, 1鈥2.

14. Kang K., Nanda S., Hu Y. (2022) Current trends in biochar application for catalytic conversion of biomass to biofuels. Catalysis Today 404, 3鈥18.

15. Song Y.Q., Nanda S., Cong W.J., Sun J., Dong G.H., Magdziarz A., Fang Z., Dalai A.K., Kozinski J.A. (2022) Hydrogen production from cotton stalk over Ni-La catalysts supported on spent bleaching clay via hydrothermal gasification. Industrial Crops & Products 186, 115228.

16. Sarker T.R., Nanda S., Meda V., Dalai A.K. (2022) Process optimization and investigating the effects of torrefaction and pelletization on steam gasification of canola residue. Fuel 323, 124239.

17. Pattnaik F., Nanda S., Kumar V., Naik S., Dalai A.K., Mohanty M.K. (2022) Extraction of sugars and cellulose fibers from Cannabis stems by hydrolysis, pulping and bleaching. Chemical Engineering & Technology 45, 962鈥970.

18. Pattnaik F., Nanda S., Mohanty S., Dalai A.K., Kumar V., Ponnusamy S.K., Naik S. (2022) Cannabis: Chemistry, extraction and therapeutic applications. Chemosphere 289, 133012.

19. Pattnaik F., Patra B.R., Okolie J.A., Nanda S., Dalai A.K., Naik S. (2022) A review of thermocatalytic conversion of biogenic wastes into crude biofuels and biochemical precursors. Fuel 320, 123857.

20. Pattnaik F., Nanda S., Kumar V., Naik S., Dalai A.K. (2022) Isolation of cellulose fibers from wetland reed grass through an integrated subcritical water hydrolysis-pulping-bleaching process. Fuel 311, 122618.

21. Sarker T.R., Nanda S., Meda V., Dalai A.K. (2022) Pelletization of torrefied canola residue: Effects of microwave power, residence time and bio-additives on fuel pellet quality. Fuel 312, 122728.

22. Reddy S.N., Nanda S., Okolie J.A., Dalai A.K., Hicks M.C., Hegde U.G., Kozinski J.A. (2022) Hydrothermal flames for subaquatic, terrestrial and extraterrestrial applications. Journal of Hazardous Materials 424, 127520.

23. Zhang T., Kang K., Nanda S., Dalai A.K., Xie T., Zhao Y. (2022) Comparative study on fuel characteristics and pyrolysis kinetics of corn residue-based hydrochar produced via microwave hydrothermal carbonization. Chemosphere 291, 132787.

24. Nanda S., Patra B.R., Patel R., Bakos J., Dalai A.K. (2022) Innovations in applications and prospects of bioplastics and biopolymers: a review. Environmental Chemistry Letters 20, 379鈥395.

25. Arun N., Nanda S., Hu Y., Dalai A.K. (2022) Hydrodeoxygenation of oleic acid using 纬-Al2O3 supported transition metallic catalyst systems: Insight into the development of novel FeCu/纬-Al2O3 catalyst. Molecular Catalysis 523, 111526.

26. Ayandiran A.A., Boahene P.E., Nanda S., Dalai A.K., Hu Y. (2022) Hydroprocessing of oleic acid for the production of aviation turbine fuel range hydrocarbons over bimetallic Fe-Cu/SiO2-Al2O3 catalysts promoted by Sn, Ti and Zr. Molecular Catalysis 523, 111358.

27. Azargohar R., Nanda S., Borugadda V.B., Cheng H., Bond T., Karunakaran C., Dalai A.K. (2022) Steam and supercritical water gasification of densified canola meal fuel pellets. International Journal of Hydrogen Energy 47, 42013鈥42026.

28. Nanda S., Okolie J.A., Patel R., Pattnaik F., Fang Z., Dalai A.K., Kozinski J.A., Naik S. (2022) Catalytic hydrothermal co-gasification of canola meal and low-density polyethylene using mixed metal oxides for hydrogen production. International Journal of Hydrogen Energy 47, 42084鈥42098.

29. Okolie J.A., Tabat M.E., Gunes B., Epelle E.I., Mukherjee A., Nanda S., Dalai A.K. (2021) A techno-economic assessment of biomethane and bioethanol production from crude glycerol through integrated hydrothermal gasification, syngas fermentation and biomethanation. Energy Conversion and Management: X 12, 100131.

30. Masoumi S., Borugadda V.B., Nanda S., Dalai A.K. (2021) Hydrochar: A review on its production technologies and applications. Catalysts 11, 939.

31. Pattnaik F., Tripathi S., Patra B.R., Nanda S., Kumar V., Dalai A.K., Naik S. (2021) Catalytic conversion of lignocellulosic polysaccharides to commodity biochemicals: a review. Environmental Chemistry Letters 19, 4119鈥4136.

32. Patra B.R., Nanda S., Dalai A.K., Meda V. (2021) Taguchi-based process optimization for activation of agro-food waste biochar and performance test for dye adsorption. Chemosphere 285, 131531.

33. Patra B.R., Nanda S., Dalai A.K., Meda V. (2021) Slow pyrolysis of agro-food wastes and physicochemical characterization of biofuel products. Chemosphere 285, 131431.

34. Sarker T.R., Pattnaik F., Nanda S., Dalai A.K., Meda V., Naik S. (2021) Hydrothermal pretreatment technologies for lignocellulosic biomass: A review of steam explosion and subcritical water hydrolysis. Chemosphere 284, 131372.

35. Prasanth S.M., Kumar P.S., Harish S., Rishikesh M., Nanda S., Vo D.V.N. (2021) Application of biomass derived products in mid-size automotive industries: A review. Chemosphere 280, 130723.

36. Okolie J.A., Mukherjee A., Nanda S., Dalai A.K., Kozinski J.A. (2021) Catalytic supercritical water gasification of soybean straw: Effects of catalyst supports and promoters. Industrial & Engineering Chemistry Research 60, 5770鈥5782.

37. Okolie J.A., Nanda S., Dalai A.K., Kozinski J.A. (2021) Optimization studies for hydrothermal gasification of partially burnt wood from forest fires for hydrogen-rich syngas production using Taguchi experimental design. Environmental Pollution 283, 117040.

38. Cong W.J., Nanda S., Li H., Fang Z., Dalai A.K., Kozinski J.A. (2021) Metal-organic framework-based functional catalytic materials for biodiesel production: A review. Green Chemistry 23, 2595鈥2618.

39. Okolie J.A., Nanda S., Dalai A.K., Kozinski J.A. (2021) Techno-economic evaluation and sensitivity analysis of a conceptual design for supercritical water gasification of soybean straw to produce hydrogen. Bioresource Technology 331, 125005.

40. Okolie J.A., Epelle E.I., Nanda S., Castello D., Dalai A.K., Kozinski J.A. (2021) Modeling and process optimization of hydrothermal gasification for hydrogen production: A comprehensive review. The Journal of Supercritical Fluids 173, 105199.

41. Pattnaik F., Nanda S., Kumar V., Naik S., Dalai A.K. (2021) Subcritical water hydrolysis of Phragmites for sugar extraction and catalytic conversion to platform chemicals. Biomass & Bioenergy 145, 105965.

42. Okolie J.A., Patra B.R., Mukherjee A., Nanda S., Dalai A.K., Kozinski J.A. (2021) Futuristic applications of hydrogen in energy, biorefining, aerospace, pharmaceuticals and metallurgy. International Journal of Hydrogen Energy 46, 8885鈥8905.

43. Sarker T.R., Nanda S., Dalai A.K., Meda V. (2021) A review of torrefaction technology for upgrading lignocellulosic biomass to solid biofuels. BioEnergy Research 14, 645鈥669.

44. Patra B.R., Mukherjee A., Nanda S., Dalai A.K. (2021) Biochar production, activation and adsorptive applications: a review. Environmental Chemistry Letters 19, 2237鈥2259.

45. Okolie J.A., Mukherjee A., Nanda S., Dalai A.K., Kozinski J.A. (2021) Next-generation biofuels and platform biochemicals from lignocellulosic biomass. International Journal of Energy Research 45, 14145鈥14169.

46. Singh A., Nanda S., Guayaquil-Sosa J.F., Berruti F. (2021) Pyrolysis of Miscanthus and characterization of value-added bio-oil and biochar products. The Canadian Journal of Chemical Engineering 99, S55鈥揝68.

47. Baaloudj O., Nasrallah N., Kebir M., Guedioura B., Amrane A., Nguyen-Tri P., Nanda S., Assadi A.A. (2021) Artificial neural network modeling of Cefixime photodegradation by synthesized CoBi2O4 nanoparticles. Environmental Science and Pollution Research 28, 15436鈥15452.

48. Okolie J.A., Nanda S., Dalai A.K., Kozinski J.A. (2021) Chemistry and specialty industrial applications of lignocellulosic biomass. Waste and Biomass Valorization 12, 2145鈥2169.

49. Nanda S., Berruti F. (2021) A technical review of bioenergy and resource recovery from municipal solid waste. Journal of Hazardous Materials 403, 123970.

50. Nanda S., Berruti F. (2021) Thermochemical conversion of plastic waste to fuels: a review. Environmental Chemistry Letters 19, 123鈥148.

51. Nanda S., Berruti F. (2021) Municipal solid waste management and landfilling technologies: A review. Environmental Chemistry Letters 19, 1433鈥1456.

52. Tran N.T., Nguyen T.D., Cuong N.V., Siang T.J., Gimbun J., Phuong P.T.T., Lam S.S., Truong Q.D., Abidin S.Z., Nanda S., Vo D.V.N. (2021) Improvements in hydrogen production from methane dry reforming on filament-shaped mesoporous alumina-supported cobalt nanocatalyst. International Journal of Hydrogen Energy 46, 24781鈥24790.

53. Nguyen D.T., Nguyen V.H., Nanda S., Vo D.V.N., Nguyen V.H., Tran T.V., Nong L.X., Nguyen T.T., Bach L.G., Abdullah B., Hong S.S., Nguyen T.V. (2020) BiVO4 photocatalysis design and applications to oxygen production and degradation of organic compounds: a review. Environmental Chemistry Letters 18, 1779鈥1801.

54. Vo D.V.N., Nguyen V.H., Palmisano L., Huang C.W., Nanda S., Nguyen T.D. (2020) Preface to the Special Issue on 鈥淗eterogeneous photocatalysts: From fundamentals to innovative applications鈥. Topics in Catalysis 63, 955.

55. Vo D.V.N., Minh D.P., Nanda S., Nguyen T.D. (2020) Editorial for the Special Issue: Energy Security and Chemical Engineering Congress (ESChE) 2019, Penang, Malaysia. Waste and Biomass Valorization 11, 5521.

56. Nguyen-Tri P., Carri猫re P., Duong A., Nanda S. (2020) Graphene oxide-induced interfacial transcrystallization of single-fiber milkweed/polycaprolactone/polyvinylchloride composites. ACS Omega 5, 22430鈥22439.

57. Nguyen-Tri P., Ghassemi P., Carriere P., Nanda S., Assadi A.A., Nguyen D.D. (2020) Recent applications of advanced atomic force microscopy in polymer science: A review. Polymers 12, 1142.

58. Rana R., Nanda S., Reddy S.N., Dalai A.K., Kozinski J.A., G枚kalp I. (2020) Catalytic gasification of light and heavy gas oils in supercritical water. Journal of the Energy Institute 93, 2025鈥2032.

59. Parakh P.D., Nanda S., Kozinski J.A. (2020) Eco-friendly transformation of waste biomass to biofuels. Current Biochemical Engineering 6, 120鈥134.

60. Sun J., Xu L., Dong G.H., Nanda S., Li H., Fang Z., Kozinski J.A., Dalai A.K. (2020) Subcritical water gasification of lignocellulosic wastes for hydrogen production with Co modified Ni/Al2O3 catalyst. The Journal of Supercritical Fluids 162, 104863.

61. Kang K., Nanda S., Lam S.S., Zhang T., Huo L., Zhao L. (2020) Enhanced fuel characteristics and physical chemistry of microwave hydrochar for sustainable fuel pellet production via co-densification. Environmental Research 186, 109480.

62. Tran T.V., Nguyen D.T.C., Le H.T.N., Vo D.V.N., Nanda S., Thi T.A.D., Dinh V.P., Nguyen T.D. (2020) Optimization, equilibrium, adsorption behavior, and role of functional groups on graphene oxide-based nanocomposite towards diclofenac drug. Journal of Environmental Sciences 93, 137鈥150.

63. Tran N.T., Le Q.V., Cuong N.V., Nguyen T.D., Phuc N.H.H., Phuong P.T.T., Monir M.U., Aziz A.A., Truong Q.D., Abidin S.Z., Nanda S., Vo D.V.N. (2020) La-doped cobalt supported on mesoporous alumina catalysts for improved methane dry reforming and coke mitigation. Journal of the Energy Institute 93, 1571鈥1580.

64. Nanda S. (2020) Hydrogen: A clean and green fuel of the future. Chemical Engineering & Technology 43, 595.

65. Vo D.V.N., Nanda S., Setiabudi H.D., Inamuddin (2020) Hydrogen energy production from advanced reforming processes and emerging approaches. Chemical Engineering & Technology 43, 600.

66. Sarangi P.K., Nanda S. (2020) Biohydrogen production through dark fermentation. Chemical Engineering & Technology 43, 601鈥612.

67. Okolie J.A., Nanda S., Dalai A.K., Kozinski J.A. (2020) Hydrothermal gasification of soybean straw and flax straw for hydrogen-rich syngas production: Experimental and thermodynamic modeling. Energy Conversion and Management 208, 112545.

68. Okolie J.A., Nanda S., Dalai A.K., Berruti F., Kozinski J.A. (2020) A review on subcritical and supercritical water gasification of biogenic, polymeric and petroleum wastes to hydrogen-rich synthesis gas. Renewable and Sustainable Energy Reviews 119, 109546.

69. Vo D.V.N., Nanda S. (2020) Editorial for the Special Issue on 鈥淲aste and Biomass-Derived Hydrogen Synthesis and Implementation鈥. International Journal of Hydrogen Energy 45, 18089.

70. Okolie J.A., Nanda S., Dalai A.K., Kozinski J.A. (2020) Optimization and modeling of process parameters during hydrothermal gasification of biomass model compounds to generate hydrogen-rich gas products. International Journal of Hydrogen Energy 45, 18275鈥18288.

71. Shafiqah M.N.N., Tran H.N., Nguyen T.D., Phuong P.T.T., Abdullah B., Lam S.S., Nguyen-Tri P., Kumar R., Nanda S., Vo D.V.N. (2020) Ethanol CO2 reforming on La2O3 and CeO2-promoted Cu/Al2O3 catalysts for enhanced hydrogen production. International Journal of Hydrogen Energy 45, 18398鈥18410.

72. Nayak S.K., Nayak B., Mishra P.C., Noor M.M., Nanda S. (2019) Effects of biodiesel blends and producer gas flow on overall performance of a turbocharged direct injection dual-fuel engine. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects.

73. Tran T.V., Nguyen D.T.C., Nguyen H.T.T., Nanda S., Vo D.V.N., Do S.T., Nguyen T.V., Thi T.A.D., Bach L.G., Nguyen T.D. (2019) Application of Fe-based metal-organic framework and its pyrolysis products for sulfonamide treatment. Environmental Science and Pollution Research 26, 28106鈥28126.

74. Nanda S., Reddy S.N., Hunter H.N., Vo D.V.N., Kozinski J.A., G枚kalp I. (2019) Catalytic subcritical and supercritical water gasification as a resource recovery approach from waste tires for hydrogen-rich syngas production. The Journal of Supercritical Fluids 154, 104627.

75. Kang K., Nanda S., Sun G., Qiu L., Gu Y., Zhang T., Zhu M., Sun R. (2019) Microwave-assisted hydrothermal carbonization of corn stalk for solid biofuel production: Optimization of process parameters and characterization of hydrochar. Energy 186, 115795.

76. Nguyen-Tri P., Tran H.N., Plamondon C.O., Tuduri L., Vo D.V.N., Nanda S., Mishra A., Chao H.P., Bajpai A.K. (2019) Recent progress in the preparation, properties and applications of superhydrophobic nano-based coatings and surfaces: A review. Progress in Organic Coatings 132, 235鈥256.

77. Okolie J.A., Rana R., Nanda S., Dalai A.K., Kozinski J.A. (2019) Supercritical water gasification of biomass: A state-of-the-art review of process parameters, reaction mechanisms and catalysis. Sustainable Energy & Fuels 3, 578鈥598.

78. Reddy S.N., Nanda S., Kumar P., Hicks M.C., Hegde U.G., Kozinski J.A. (2019) Impacts of oxidant characteristics on the ignition of n-propanol-air hydrothermal flames in supercritical water. Combustion and Flame 203, 46鈥55.

79. Azargohar R., Nanda S., Dalai A.K., Kozinski J.A. (2019) Physico-chemistry of biochars produced through steam gasification and hydro-thermal gasification of canola hull and canola meal pellets. Biomass & Bioenergy 120, 458鈥470.

80. Azargohar R., Nanda S., Kang K., Bond T., Karunakaran C., Dalai A.K., Kozinski J.A. (2019) Effects of bio-additives on the physicochemical properties and mechanical behavior of canola hull fuel pellets. Renewable Energy 13, 296鈥307.

81. Nanda S., Rana R., Hunter H.N., Fang Z., Dalai A.K., Kozinski J.A. (2019) Hydrothermal catalytic processing of waste cooking oil for hydrogen-rich syngas production. Chemical Engineering Science 195, 935鈥945.

82. Rana R., Nanda S., Maclennan A., Hu Y., Kozinski J.A., Dalai A.K. (2019) Comparative evaluation for catalytic gasification of petroleum coke and asphaltene in subcritical and supercritical water. Journal of Energy Chemistry 31, 107鈥118.

83. Nanda S., Reddy S.N., Vo D.V.N., Sahoo B.N., Kozinski J.A. (2018) Catalytic gasification of wheat straw in hot compressed (subcritical and supercritical) water for hydrogen production. Energy Science & Engineering 6, 448鈥459.

84. Rana R., Nanda S., Meda V., Dalai A.K., Kozinski J.A. (2018) A review of lignin chemistry and its biorefining conversion technologies. Journal of Biochemical Engineering and Bioprocess Technology 1:2.

85. Rana R., Nanda S., Kozinski J.A., Dalai A.K. (2018) Investigating the applicability of Athabasca bitumen as a feedstock for hydrogen production through catalytic supercritical water gasification. Journal of Environmental Chemical Engineering 6, 182鈥189.

86. Reddy S.N., Nanda S., Sarangi P.K., Dalai A.K., Kozinski J.A. (2018) Hydrothermal gasification for generation of hydrogen from glycerol and methanol feed solutions. Journal of Sustainable Planet 9, 56鈥64.

87. Nanda S., Sarangi P.K. (2018) A review on the remediation technologies for marine oil spills. Journal of Sustainable Planet 9, 22鈥34.

88. Singh S., Kumar R., Setiabudi H.D., Nanda S., Vo D.V.N. (2018) Advanced synthesis strategies of mesoporous SBA-15 supported catalysts for catalytic reforming applications: A state-of-the-art review. Applied Catalysis A: General 559, 57鈥74.

89. Nanda S., Gong M., Hunter H.N., Dalai A.K., G枚kalp I., Kozinski J.A. (2017) An assessment of pinecone gasification in subcritical, near-critical and supercritical water. Fuel Processing Technology 168, 84鈥96.

90. Nanda S., Rana R., Zheng Y., Kozinski J.A., Dalai A.K. (2017) Insights on pathways for hydrogen generation from ethanol. Sustainable Energy & Fuels 1, 1232鈥1245.

91. Nanda S., Naik S.N., Kozinski J.A., Dalai A.K. (2017) A review on Indian biomass supply chain and biofuel activities. Journal of Sustainable Planet 8, 17鈥26.

92. Nanda S., Golemi-Kotra D., McDermott J.C., Dalai A.K., G枚kalp I., Kozinski J.A. (2017) Fermentative production of butanol: Perspectives on synthetic biology. New Biotechnology 37, 210鈥221.

93. Sahoo B.N., Gunda N.S.K., Nanda S., Kozinski J.A., Mitra S.K. (2017) Development of dual-phobic surfaces: Superamphiphobicity in air and oleophobicity underwater. ACS Sustainable Chemistry and Engineering 5, 6716鈥6726.

94. Sahoo B.N., Nanda S., Kozinski J.A., Mitra S.K. (2017) PDMS/camphor soot composite coating: towards a self-healing and a self-cleaning superhydrophobic surface. RSC Advances 7, 15027鈥15040.

95. Gong M., Nanda S., Hunter H.N., Zhu W., Dalai A.K., Kozinski J.A. (2017) Lewis acid catalyzed gasification of humic acid in supercritical water. Catalysis Today 291, 13鈥23.

96. Gong M., Nanda S., Romero M.J., Zhu W., Kozinski J.A. (2017) Subcritical and supercritical water gasification of humic acid as a model compound of humic substances in sewage sludge. The Journal of Supercritical Fluids 119, 130鈥138.

97. Reddy S.N., Nanda S., Hegde U.G., Hicks M.C., Kozinski J.A. (2017) Ignition of n-propanol鈥揳ir hydrothermal flames during supercritical water oxidation. Proceedings of the Combustion Institute 36, 2503鈥2511.

98. Reddy S.N., Nanda S., Kozinski J.A. (2016) Supercritical water gasification of glycerol and methanol mixtures as model waste residues from biodiesel refinery. Chemical Engineering Research and Design 113, 17鈥27.

99. Nanda S., Casalino M., Loungia M.S., Dalai A.K., G枚kalp I., Kozinski J.A. (2016) Catalytic gasification of pinewood in hydrothermal conditions for hydrogen production. Chemical Engineering Transactions 50, 31鈥36.

100. Nanda S., Dalai A.K., Kozinski J.A. (2016) Supercritical water gasification of timothy grass as an energy crop in the presence of alkali carbonate and hydroxide catalysts. Biomass & Bioenergy 95, 378鈥387.

101. Nanda S., Dalai A.K., Kozinski J.A. (2016) Cellular modifications in pinewood during delignification and hydrothermal pretreatment. Journal of Science and Technology for Forest Products and Processes 5, 27鈥35.

102. Fougere D., Nanda S., Clarke K., Kozinski J.A., Li K. (2016) Effect of acidic pretreatment on the chemistry and distribution of lignin in aspen wood and wheat straw substrates. Biomass & Bioenergy 91, 56鈥68.

103. Nanda S., Dalai A.K., G枚kalp I., Kozinski J.A. (2016) Valorization of horse manure through catalytic supercritical water gasification. Waste Management 52, 147鈥158.

104. Nanda S., Reddy S.N., Mitra S.K., Kozinski J.A. (2016) The progressive routes for carbon capture and sequestration. Energy Science & Engineering 4, 99鈥122.

105. Nanda S., Reddy S.N., Dalai A.K., Kozinski J.A. (2016) Subcritical and supercritical water gasification of lignocellulosic biomass impregnated with nickel nanocatalyst for hydrogen production. International Journal of Hydrogen Energy 41, 4907鈥4921.

106. Nanda S., Isen J., Dalai A.K., Kozinski J.A. (2016) Gasification of fruit wastes and agro-food residues in supercritical water. Energy Conversion and Management 110, 296鈥306.

107. Nanda S., Dalai A.K., Berruti F., Kozinski J.A. (2016) Biochar as an exceptional bioresource for energy, agronomy, carbon sequestration, activated carbon and specialty materials. Waste and Biomass Valorization 7, 201鈥235.

108. Nanda S., Kozinski J.A., Dalai A.K. (2016) Lignocellulosic biomass: A review of conversion technologies and fuel products. Current Biochemical Engineering 3, 24鈥36.

109. Nanda S., Reddy S.N., Hunter H.N., Butler I.S., Kozinski J.A. (2015) Supercritical water gasification of lactose as a model compound for valorization of dairy industry effluents. Industrial & Engineering Chemistry Research 54, 9296鈥9306.

110. Nanda S., Reddy S.N., Hunter H.N., Dalai A.K., Kozinski J.A. (2015) Supercritical water gasification of fructose as a model compound for waste fruits and vegetables. The Journal of Supercritical Fluids 104, 112鈥121.

111. Nanda S., Maley J., Kozinski J.A., Dalai A.K. (2015) Physico-chemical evolution in lignocellulosic feedstocks during hydrothermal pretreatment and delignification. Journal of Biobased Materials and Bioenergy 9, 295鈥308.

112. Nanda S., Azargohar R., Dalai A.K., Kozinski J.A. (2015) An assessment on the sustainability of lignocellulosic biomass for biorefining. Renewable and Sustainable Energy Reviews 50, 925鈥941.

113. Reddy S.N., Nanda S., Hegde U.G., Hicks M.C., Kozinski J.A. (2015) Ignition of hydrothermal flames. RSC Advances 5, 36404鈥36422.

114. Nanda S., Dalai A.K., Kozinski J.A. (2014) Butanol and ethanol production from lignocellulosic feedstock: biomass pretreatment and bioconversion. Energy Science & Engineering 2, 138鈥148.

115. Reddy S.N., Ding N., Nanda S., Dalai A.K., Kozinski J.A. (2014) Supercritical water gasification of biomass in diamond anvil cells and fluidized beds. Biofuels, Bioproducts and Biorefining 8, 728鈥737.

116. Nanda S., Mohanty P., Kozinski J.A., Dalai A.K. (2014) Physico-chemical properties of bio-oils from pyrolysis of lignocellulosic biomass with high and slow heating rate. Energy and Environment Research 4, 21鈥32.

117.听 Nanda S., Mohammad J., Reddy S.N., Kozinski J.A., Dalai A.K. (2014) Pathways of lignocellulosic biomass conversion to renewable fuels. Biomass Conversion and Biorefinery 4, 157鈥191.

118. Nanda S., Azargohar R., Kozinski J.A., Dalai A.K. (2014) Characteristic studies on the pyrolysis products from hydrolyzed Canadian lignocellulosic feedstocks. BioEnergy Research 7, 174鈥191.

119. Reddy S.N., Nanda S., Dalai A.K., Kozinski J.A. (2014) Supercritical water gasification of biomass for hydrogen production. International Journal of Hydrogen Energy 39, 6912鈥6926.

120. Azargohar R., Nanda S., Kozinski J.A., Dalai A.K., Sutarto R. (2014) Effects of temperature on the physicochemical characteristics of fast pyrolysis bio-chars derived from Canadian waste biomass. Fuel 125, 90鈥100.

121. Nanda S., Dalai A.K., Kozinski J.A. (2013) Forestry biomass in a bioenergy perspective. Journal of Science and Technology for Forest Products and Processes 3, 15鈥26.

122. Azargohar R., Nanda S., Rao B.V.S.K., Dalai A.K. (2013) Slow pyrolysis of deoiled Canola meal: Product yields and characterization. Energy & Fuels 27, 5268鈥5279.

123. Mohanty P., Nanda S., Pant K.K., Naik S., Kozinski J.A., Dalai A.K. (2013) Evaluation of the physiochemical development of biochars obtained from pyrolysis of wheat straw, timothy grass and pinewood: Effects of heating rate. Journal of Analytical and Applied Pyrolysis 104, 485鈥493.

124. Nanda S., Mohanty P., Pant K.K., Naik S., Kozinski J.A., Dalai A.K. (2013) Characterization of North American lignocellulosic biomass and biochars in terms of their candidacy for alternate renewable fuels. BioEnergy Research 6, 663鈥677.

Book Chapters (Selected)

1.聽聽聽聽聽 Jha S., Nanda S., Acharya B., Dalai A.K. (2023) Introduction to sustainability science in addressing energy security and achieving sustainable development goals. In: Biomass to Bioenergy: Modern Technological Strategies for Biorefineries; Nanda S., Dalai A.K. (Eds.); Woodhead Publishing (Elsevier), Cambridge, USA.

2.聽聽聽聽聽 Sarker T.R., Nanda S., Dalai A.K. (2023) Insights on biomass pretreatment and bioconversion to bioethanol and biobutanol. In: Biomass to Bioenergy: Modern Technological Strategies for Biorefineries; Nanda S., Dalai A.K. (Eds.); Woodhead Publishing (Elsevier), Cambridge, USA.

3.聽聽聽聽聽 Patra B.R., Pattnaik F., Podder J., Nanda S., Dalai A.K. (2023) Advances in pyrolysis and co-pyrolysis technologies for biomass conversion to solid and liquid biofuels. In: Biomass to Bioenergy: Modern Technological Strategies for Biorefineries; Nanda S., Dalai A.K. (Eds.); Woodhead Publishing (Elsevier), Cambridge, USA.

4.聽聽聽聽聽 Yahyazadeh A., Nanda S., Dalai A.K., Zhang L. (2023) Conversion of syngas to olefins and green hydrocarbons through Fischer鈥揟ropsch catalysis. In: Biomass to Bioenergy: Modern Technological Strategies for Biorefineries; Nanda S., Dalai A.K. (Eds.); Woodhead Publishing (Elsevier), Cambridge, USA.

5.聽聽聽聽聽 Patra B.R., Gouda S.P., Pattnaik F., Nanda S., Dalai A.K., Naik S. (2022) A brief overview of recent advancements in carbon dioxide capture and valorization technologies. In: Carbon Dioxide Capture and Conversion: Advanced Materials and Processes; Nanda S., Vo D.V.N., Nguyen V.H. (Eds.); Elsevier, Amsterdam, Netherlands; pp. 1鈥16.

6.聽聽聽聽聽 Okolie J.A., Nanda S., Dalai A.K., Kozinski J.A. (2022) Advances in the industrial applications of supercritical carbon dioxide. In: Carbon Dioxide Capture and Conversion: Advanced Materials and Processes; Nanda S., Vo D.V.N., Nguyen V.H. (Eds.); Elsevier, Amsterdam, Netherlands; pp. 237鈥256.

7.聽聽聽聽聽 Patra B.R., Mohapatro R.N., Routray S., Swain R., Nanda S., Dalai A.K. (2022) Thermochemical conversion of organic waste: New horizons for production of green energy. In: Innovations in Thermochemical Technologies for Biofuel Processing; Nanda S., Vo D.V.N. (Eds.); Elsevier, Amsterdam, Netherlands; pp. 1鈥21.

8.聽聽聽聽聽 Barbiero C., Nanda S., Berruti F. (2022) Pyrolytic valorization of an invasive crop (Phragmites) to high-value biofuels and bioproducts. In: Innovations in Thermochemical Technologies for Biofuel Processing; Nanda S., Vo D.V.N. (Eds.); Elsevier, Amsterdam, Netherlands; pp. 89鈥115.

9.聽聽聽聽聽 Sarangi P.K., Nanda S., Dalai A.K., Kozinski J.A. (2022) An overview of fermentative hydrogen production technologies. In: Biohydrogen: Developments and Prospects; Nanda S., Sarangi P.K. (Eds.); Apple Academic Press, Ontario, Canada; pp. 127鈥140.

10.聽 Bhatia L., Sarangi P.K., Nanda S. (2022) Hydrogen production through microbial electrolysis. In: Biohydrogen: Developments and Prospects; Nanda S., Sarangi P.K. (Eds.); Apple Academic Press, Ontario, Canada; pp. 175鈥188.

11.聽 Das S.S., Sarangi P.K., Nanda S. (2022) Utilization of waste biomass resources for biogas production. In: Biomethane: Developments and Prospects; Nanda S., Sarangi P.K. (Eds.); Apple Academic Press, Ontario, Canada; pp. 1鈥11.

12.聽 Mukherjee A., Patra B.R., Pattnaik F., Okolie J.A., Nanda S., Dalai A.K. (2022) Biomethane production through anaerobic digestion of lignocellulosic biomass and organic wastes. In: Biomethane: Developments and Prospects; Nanda S., Sarangi P.K. (Eds.); Apple Academic Press, Ontario, Canada; pp. 61鈥92.

13.聽 Patra B.R., Okolie J.A., Mukherjee A., Pattnaik F., Nanda S., Dalai A.K., Kozinski J.A., Sarangi P.K. (2022) Recent advancements in thermochemical biomethane production. In: Biomethane: Developments and Prospects; Nanda S., Sarangi P.K. (Eds.); Apple Academic Press, Ontario, Canada; pp. 93鈥110.

14.聽 Sarangi P.K., Nanda S. (2022) A brief overview of fermentative biohythane production. In: Biomethane: Developments and Prospects; Nanda S., Sarangi P.K. (Eds.); Apple Academic Press, Ontario, Canada; pp. 137鈥149.

15.聽 Nguyen C.C., Nguyen D.L.T., Nguyen D.M.T., Nguyen V.H., Nanda S., Vo D.V.N., Shokouhimehr M., Do H.H., Kim S.Y., Le Q.V. (2021) Nanostructured photocatalysts: Introduction to photocatalytic mechanism and nanomaterials for energy and environmental applications. In: Nanostructured Photocatalysts: From Fundamental to Practical Applications; Nguyen V.H., Vo D.V.N., Nanda S. (Eds.); Elsevier, Cambridge, USA; pp. 3鈥33.

16.聽 Patel R., Nanda S., Dalai A.K. (2021) Conversion of municipal solid waste to biofuels. In: Progressive Thermochemical Biorefining Technologies; Nanda S., Vo D.V.N. (Eds.); CRC Press, Florida, USA; pp. 43鈥61.

17.聽 Patel R., Nanda S., Dalai A.K. (2021) Conversion of plastic waste to fuels and chemicals. In: Progressive Thermochemical Biorefining Technologies; Nanda S., Vo D.V.N. (Eds.); CRC Press, Florida, USA; pp. 63鈥73.

18.聽 Sarker T.R., Nanda S., Azargohar R., Meda V., Dalai A.K. (2021) Torrefied solids: A material border lining biomass and biochar. In: Progressive Thermochemical Biorefining Technologies; Nanda S., Vo D.V.N. (Eds.); CRC Press, Florida, USA; pp. 75鈥104.

19.聽 Anno-Kusi J., Sarker T.R., Nanda S., Dalai A.K. (2021) Pelletization of torrefied biomass using binders. In: Progressive Thermochemical Biorefining Technologies; Nanda S., Vo D.V.N. (Eds.); CRC Press, Florida, USA; pp. 105鈥124.

20.聽 Kang K., Papari S., Bamdad H., Nanda S., Dalai A.K., Berruti F. (2021) Algae as a bioresource for clean fuels, carbon fixation and wastewater reclamation. In: Algal Biorefinery: Developments, Challenges and Opportunities; Dalai A.K., Goud V.V., Nanda S., Borugadda V.B. (Eds.); Routledge, Abingdon, U.K.; pp. 1鈥23.

21.聽 Hans N., Pattnaik F., Malik A., Nanda S., Kumar V., Dalai A.K., Naik S. (2021) Algal-derived physiologically active nutraceuticals: Dietary supplements, vitamins, carotenoids, fatty acids and other novel products. In: Algal Biorefinery: Developments, Challenges and Opportunities; Dalai A.K., Goud V.V., Nanda S., Borugadda V.B. (Eds.); Routledge, Abingdon, U.K.; pp. 197鈥230.

22.听 Nanda S., Pattnaik F., Borugadda V.B., Dalai A.K., Kozinski J.A., Naik S. (2021) Catalytic and noncatalytic upgrading of bio-oil to synthetic fuels: An introductory review. In: Catalytic and Noncatalytic Upgrading of Oils; Dalai A.K., Dadyburjor D.B., Zheng Y., Duan A., Roberts W.L., Nanda S. (Eds.); ACS Symposium Series, Vol. 1379, Washington, DC, USA; pp. 1鈥28.

23.聽 Yadav P., Reddy S.N., Nanda S., Dalai A.K. (2021) Subcritical and supercritical water treatments for bio-oil production and upgrading. In: Catalytic and Noncatalytic Upgrading of Oils; Dalai A.K., Dadyburjor D.B., Zheng Y., Duan A., Roberts W.L., Nanda S. (Eds.); ACS Symposium Series, Vol. 1379, Washington, DC, USA; pp. 69鈥87.

24.聽 Sarangi P.K., Nanda S. (2020) Bioprospecting and bioresources for next-generation biofuel production. In: Bioprocessing of Biofuels; Sarangi P.K., Nanda S. (Eds.); CRC Press, Florida, USA; pp. 1鈥8.

25.聽 Sarangi P.K., Nanda S. (2020) Advanced biomass pretreatment processes for bioconversion. In: Bioprocessing of Biofuels; Sarangi P.K., Nanda S. (Eds.); CRC Press, Florida, USA; pp. 9鈥24.

26.聽 Sarangi P.K., Nanda S. (2020) Bioconversion of waste biomass to bioethanol. In: Bioprocessing of Biofuels; Sarangi P.K., Nanda S. (Eds.); CRC Press, Florida, USA; pp. 25鈥33.

27.聽 Sarangi P.K., Nanda S. (2020) Bioconversion of waste biomass to biobutanol. In: Bioprocessing of Biofuels; Sarangi P.K., Nanda S. (Eds.); CRC Press, Florida, USA; pp. 35鈥43.

28.聽 Sarangi P.K., Nanda S. (2020) Bioconversion of waste biomass to biomethanol. In: Bioprocessing of Biofuels; Sarangi P.K., Nanda S. (Eds.); CRC Press, Florida, USA; pp. 45鈥52.

29.聽 Sarangi P.K., Nanda S. (2020) Bioconversion of waste biomass to biohydrogen. In: Bioprocessing of Biofuels; Sarangi P.K., Nanda S. (Eds.); CRC Press, Florida, USA; pp. 53鈥59.

30.聽 Sarangi P.K., Nanda S. (2020) Conversion of algal biomass to biofuels. In: Bioprocessing of Biofuels; Sarangi P.K., Nanda S. (Eds.); CRC Press, Florida, USA; pp. 61鈥73.

31.聽 Sarangi P.K., Nanda S. (2020) Perspectives on microbial fuel cells. In: Bioprocessing of Biofuels; Sarangi P.K., Nanda S. (Eds.); CRC Press, Florida, USA; pp. 75鈥83.

32.聽 Reddy S.N., Nanda S., Vo D.V.N., Nguyen T.D., Nguyen V.H., Abdullah B., Nguyen-Tri P. (2020) Hydrogen: fuel of the near future. In: New Dimensions in Production and Utilization of Hydrogen; Nanda S., Vo D.V.N., Nguyen-Tri P. (Eds.); Elsevier; Cambridge, USA; pp. 1鈥20.

33.聽 Siang T.J., Jalil A.A., Shafiqah M.N.N., Bahari M.B., Setiabudi H.D., Abidin S.Z., Nguyen T.D., Abdulrahman A., Le Q.V., Nanda S., Vo D.V.N. (2020) Recent progress in ethanol steam reforming for hydrogen generation. In: New Dimensions in Production and Utilization of Hydrogen; Nanda S., Vo D.V.N., Nguyen-Tri P. (Eds.); Elsevier; Cambridge, USA; pp. 57鈥80.

34.聽 Huang C.W., Nguyen B.S., Vo D.V.N., Nanda S., Nguyen V.H. (2020) Photocatalytic reforming for a sustainable hydrogen production over titania-based photocatalysts. In: New Dimensions in Production and Utilization of Hydrogen; Nanda S., Vo D.V.N., Nguyen-Tri P. (Eds.); Elsevier; Cambridge, USA; pp. 191鈥213.

35.听 Nanda S., Rana R., Vo D.V.N., Sarangi P.K., Nguyen T.D., Dalai A.K., Kozinski J.A. (2020) A spotlight on butanol and propanol as next-generation synthetic fuels. In: Biorefinery of Alternative Resources: Targeting Green Fuels and Platform Chemicals; Nanda S., Vo D.V.N., Sarangi P.K. (Eds.); Springer Nature, Singapore; pp. 105鈥126.

36.聽 Sarangi P.K., Nanda S., Vo D.V.N. (2020) Technological advancements in the production and application of biomethanol. In: Biorefinery of Alternative Resources: Targeting Green Fuels and Platform Chemicals; Nanda S., Vo D.V.N., Sarangi P.K. (Eds.); Springer Nature, Singapore; pp. 127鈥139.

37.聽 Singh A., Nanda S., Berruti F. (2020) A review of thermochemical and biochemical conversion of Miscanthus to biofuels. In: Biorefinery of Alternative Resources: Targeting Green Fuels and Platform Chemicals; Nanda S., Vo D.V.N., Sarangi P.K. (Eds.); Springer Nature, Singapore; pp. 195鈥220.

38.聽 Siang T.J., Roslan N.A., Setiabudi H.D., Abidin S.Z., Nguyen T.D., Cheng C.K., Jalil A.A., Le M.T., Sarangi P.K., Nanda S., Vo D.V.N. (2020) Recent advances in steam reforming of glycerol for syngas production. In: Biorefinery of Alternative Resources: Targeting Green Fuels and Platform Chemicals; Nanda S., Vo D.V.N., Sarangi P.K. (Eds.); Springer Nature, Singapore; pp. 399鈥425.

39.聽 Nayak S.K., Mishra P.C., Nanda S., Nayak B., Noor M.M. (2020) Opportunities for biodiesel compatibility as a modern combustion engine fuel. In: Biorefinery of Alternative Resources: Targeting Green Fuels and Platform Chemicals; Nanda S., Vo D.V.N., Sarangi P.K. (Eds.); Springer Nature, Singapore; pp. 457鈥476.

40.聽 Bhatia L., Sarangi P.K., Nanda S. (2020) Current advancements in microbial fuel cell technologies. In: Biorefinery of Alternative Resources: Targeting Green Fuels and Platform Chemicals; Nanda S., Vo D.V.N., Sarangi P.K. (Eds.); Springer Nature, Singapore; pp. 477鈥494.

41.聽 Nguyen T.D., Tran T.V., Singh S., Phuong P.T.T., Bach L.G., Nanda S., Vo D.V.N. (2020) Conversion of carbon dioxide into formaldehyde. In: Conversion of Carbon Dioxide into Hydrocarbons. Vol. 2 Technology; Inamuddin, Asiri A.M., Lichtfouse E. (Eds.); Springer Nature, Singapore; pp. 159鈥183.

42.聽 Rana R., Nanda S. (2019) Application of methanation as an alternate energy technology. In: Biogas Technology; Mishra S., Adhya T.K., Ojha S.K. (Eds.); New India Publishing Agency, New Delhi, India, pp. 105鈥116.

43.聽 Sarangi P.K., Nanda S. (2019) Valorization of pineapple wastes for biomethane generation. In: Biogas Technology; Mishra S., Adhya T.K., Ojha S.K. (Eds.); New India Publishing Agency, New Delhi, India, pp. 169鈥180.

44.聽 Sarangi P.K., Nanda S. (2019) Bioconversion of agro-wastes into phenolic flavour compounds. In: Biotechnology for Sustainable Energy and Products; Sarangi P.K., Nanda S. (Eds.); I.K. International Publishing House Pvt. Ltd., New Delhi, India; pp. 266鈥284.

45.聽 Sarangi P.K., Nanda S. (2019) Recent advances in consolidated bioprocessing for microbe-assisted biofuel production. In: Fuel Processing and Energy Utilization; Nanda S., Sarangi P.K., Vo D.V.N. (Eds.); CRC Press, Florida, USA; pp. 141鈥157.

46.聽 Yadav P., Reddy S.N., Nanda S. (2019) Cultivation and conversion of algae for wastewater treatment and biofuel production. In: Fuel Processing and Energy Utilization; Nanda S., Sarangi P.K., Vo D.V.N. (Eds.); CRC Press, Florida, USA; pp. 159鈥175.

47.聽 Rana R., Nanda S., Dalai A.K., Kozinski J.A., Adjaye J. (2019) Synthetic crude processing: Impacts of fine particles on hydrotreating of bitumen-derived gas oil. In: Fuel Processing and Energy Utilization; Nanda S., Sarangi P.K., Vo D.V.N. (Eds.); CRC Press, Florida, USA; pp. 187鈥206.

48.听 Nanda S., Rana R., Sarangi P.K., Dalai A.K., Kozinski J.A. (2018) A broad introduction to first, second and third generation biofuels. In: Recent Advancements in Biofuels and Bioenergy Utilization; Sarangi P.K., Nanda S., Mohanty P. (Eds.); Springer Nature, Singapore; pp. 1鈥25.

49.聽 Azargohar R., Nanda S., Dalai A.K. (2018) Densification of agricultural wastes and forest residues: A review on influential parameters and treatments. In: Recent Advancements in Biofuels and Bioenergy Utilization; Sarangi P.K., Nanda S., Mohanty P. (Eds.); Springer Nature, Singapore; pp. 27鈥51.

50.聽 Sarangi P.K., Nanda S. (2018) Recent developments and challenges of acetone-butanol-ethanol fermentation. In: Recent Advancements in Biofuels and Bioenergy Utilization; Sarangi P.K., Nanda S., Mohanty P. (Eds.); Springer Nature, Singapore; pp. 111鈥123.

51.聽 Reddy S.N., Nanda S., Sarangi P.K. (2018) Applications of supercritical fluids for biodiesel production. In: Recent Advancements in Biofuels and Bioenergy Utilization; Sarangi P.K., Nanda S., Mohanty P. (Eds.); Springer Nature, Singapore; pp. 261鈥284.

52.听 Nanda S., Reddy S.N., Fang Z., Dalai A.K., Kozinski J.A. (2018) Hydrothermal events occurring during gasification in supercritical water. In: Supercritical and Other High-pressure Solvent Systems: For Extraction, Reaction and Material Processing; Hunt A.J., Attard T.M. (Eds.); Royal Society of Chemistry, London, U.K.; pp. 560鈥587.

53.听 Nanda S., Dalai A.K., Pant K.K., G枚kalp I., Kozinski J.A. (2018) An appraisal on biochar functionality and utility in agronomy. In: Bioenergy and Biofuels; Konur O. (Ed.); CRC Press, Florida, USA; pp. 389鈥409.

54.听 Nanda S., Li K., Abatzoglou N., Dalai A.K., Kozinski J.A. (2017) Advancements and confinements in hydrogen production technologies. In: Bioenergy Systems for the Future; Dalena F., Basile A., Rossi C. (Eds.); Woodhead Publishing, Elsevier, U.K.; pp. 373鈥418.

55.听 Nanda S., Dalai A.K., Kozinski J.A. (2017) Butanol from renewable biomass: Highlights on downstream processing and recovery techniques. In: Sustainable Utilization of Natural Resources; Mondal P., Dalai A.K. (Eds.); CRC Press, Florida, USA; pp. 187鈥211.

56.听 Nanda S., Mohanty P., Kozinski J.A., Dalai A.K. (2016) Hydrothermal and thermochemical synthesis of bio-oil from lignocellulosic biomass: Composition, engineering and catalytic upgrading. In: Industrial Biotechnology Sustainable Production and Bioresource Utilization; Thangadurai D., Sangeetha J. (Eds.); Apple Academic Press, New Jersey, USA; pp. 326鈥370.

57.听 Nanda S., Kozinski J.A., Dalai A.K. (2013) Biomass 鈥 An overview on classification, composition and characterization. In: Biomass Processing, Conversion and Biorefinery; Zhang B., Wang Y. (Eds.); Nova Science Publishers Inc., New York, USA; pp. 3鈥36.

58.听 Nanda S., Abraham J. (2012) Microbial responses from below ground to climate uproar from above ground. In: Climate Change and Agriculture; Bharti P.K., Chauhan A. (Eds.); Discovery Publishing House Pvt. Ltd., New Delhi, India; pp. 158鈥170.

Edited Books

1. Nanda S., Dalai A.K. (2023) Biomass to Bioenergy: Modern Technological Strategies for Biorefineries; Woodhead Publishing (Elsevier), Cambridge, USA.

2. Nanda S., Vo D.V.N., Nguyen V.H. (2022) Carbon Dioxide Capture and Conversion: Advanced Materials and Processes; Elsevier, Amsterdam, Netherlands; pp. 336.

3. Nanda S., Vo D.V.N. (2022) Innovations in Thermochemical Technologies for Biofuel Processing; Elsevier, Amsterdam, Netherlands; pp. 338.

4. Nanda S., Sarangi P.K. (2022) Biohydrogen: Developments and Prospects; Apple Academic Press (Taylor & Francis Group), Ontario, Canada; pp. 242.

5. Nanda S., Sarangi P.K. (2022) Biomethane: Developments and Prospects; Apple Academic Press (Taylor & Francis Group), Ontario, Canada; pp. 196.

6. Nanda S., Vo D.V.N. (2021) Progressive Thermochemical Biorefining Technologies; CRC Press (Taylor & Francis Group), Florida, USA; pp. 216.

7. Dalai A.K., Goud V.V., Nanda S., Borugadda V.B. (2021) Algal Biorefinery: Developments, Challenges and Opportunities; Routledge (Taylor & Francis Group), Oxfordshire, U.K.; pp. 346.

8. Nguyen V.H., Vo D.V.N., Nanda S. (2021) Nanostructured Photocatalysts: From Fundamental to Practical Applications; Elsevier, Amsterdam, Netherlands; pp. 580.

9. Dalai A.K., Dadyburjor D.B., Zheng Y., Duan A., Roberts W.L., Nanda S. (2021) Catalytic and Noncatalytic Upgrading of Oils; ACS Symposium Series (American Chemical Society), Washington DC, USA; Vol. 1379; pp. 364.

10. Sarangi P.K., Nanda S. (2020) Bioprocessing of Biofuels; CRC Press (Taylor & Francis Group), Florida, USA; pp. 98.

11. Nanda S., Vo D.V.N., Nguyen-Tri P. (2020) New Dimensions in Production and Utilization of Hydrogen; Elsevier, Cambridge, USA; pp. 444.

12. Nanda S., Vo D.V.N., Sarangi P.K. (2020) Biorefinery of Alternative Resources: Targeting Green Fuels and Platform Chemicals; Springer Nature, Singapore; pp. 494.

13. Nanda S., Sarangi P.K., Vo D.V.N. (2019) Fuel Processing and Energy Utilization; CRC Press (Taylor & Francis Group), Florida, USA; pp. 224.

14. Sarangi P.K., Nanda S. (2019) Biotechnology for Sustainable Energy and Products; I.K. International Publishing House Pvt. Ltd., New Delhi, India; pp. 356.

15. Sarangi P.K., Nanda S., Mohanty P. (2018) Recent Advancements in Biofuels and Bioenergy Utilization; Springer Nature, Singapore; pp. 402.