# | Title | Journal | Year | Citations |
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1 | Hydrothermal carbonization of biomass residuals: a comparative review of the chemistry, processes and applications of wet and dry pyrolysis | Biofuels | 2011 | 1,247 |
2 | Biofuels from algae: challenges and potential | Biofuels | 2010 | 644 |
3 | Growth and agronomy ofMiscanthusxgiganteusfor biomass production | Biofuels | 2011 | 535 |
4 | Enzymatic hydrolysis of cellulosic biomass | Biofuels | 2011 | 450 |
5 | Photobiology of microalgae mass cultures: understanding the tools for the next green revolution | Biofuels | 2010 | 343 |
6 | Understanding biomass feedstock variability | Biofuels | 2013 | 279 |
7 | The place of diatoms in the biofuels industry | Biofuels | 2012 | 229 |
8 | A review of production, properties and advantages of biodiesel | Biofuels | 2018 | 197 |
9 | Microbial enzyme systems for biomass conversion: emerging paradigms | Biofuels | 2010 | 175 |
10 | Design of microbial fuel cells for practical application: a review and analysis of scale-up studies | Biofuels | 2014 | 173 |
11 | Towards domestication ofJatropha curcas | Biofuels | 2010 | 159 |
12 | Indirect land use change: review of existing models and strategies for mitigation | Biofuels | 2012 | 155 |
13 | Influence of nitrogen-limitation regime on the production byChlorella vulgarisof lipids for biodiesel feedstocks | Biofuels | 2010 | 139 |
14 | Microbial electrolysis: novel technology for hydrogen production from biomass | Biofuels | 2010 | 138 |
15 | Biomass pyrolysis for chemicals | Biofuels | 2011 | 132 |
16 | Understanding the impact of ionic liquid pretreatment on eucalyptus | Biofuels | 2010 | 129 |
17 | Critical analysis of current Microalgae dewatering techniques | Biofuels | 2013 | 129 |
18 | Synergistic interactions in cellulose hydrolysis | Biofuels | 2012 | 118 |
19 | Biological pretreatment of lignocellulosics: potential, progress and challenges | Biofuels | 2010 | 108 |
20 | Hydrothermal processing of algal biomass for the production of biofuels and chemicals | Biofuels | 2012 | 108 |
21 | Nutrient removal and recovery from digestate: a review of the technology | Biofuels | 2018 | 108 |
22 | An overview of the potential environmental impacts of large-scale microalgae cultivation | Biofuels | 2014 | 100 |
23 | Biodiesel from alternative oilseed feedstocks: camelina and field pennycress | Biofuels | 2012 | 95 |
24 | Bacterial biofilms: the powerhouse of a microbial fuel cell | Biofuels | 2010 | 94 |
25 | Design of raceway ponds for producing microalgae | Biofuels | 2012 | 92 |
26 | Life-cycle assessment of biofuels, convergence and divergence | Biofuels | 2010 | 86 |
27 | The feasibility of switchgrass for biofuel production | Biofuels | 2012 | 84 |
28 | Fuels from microalgae | Biofuels | 2010 | 83 |
29 | The production of duckweed as a source of biofuels | Biofuels | 2012 | 80 |
30 | Impact of mixed feedstocks and feedstock densification on ionic liquid pretreatment efficiency | Biofuels | 2013 | 80 |
31 | Cellulases fromPenicilliumspecies for producing fuels from biomass | Biofuels | 2012 | 78 |
32 | Bioethanol production: insight into past, present and future perspectives | Biofuels | 2018 | 78 |
33 | Microbial paths to renewable hydrogen production | Biofuels | 2011 | 77 |
34 | Microbial fuel cells: a sustainable solution for bioelectricity generation and wastewater treatment | Biofuels | 2019 | 77 |
35 | Review on possible algal-biofuel production processes | Biofuels | 2012 | 75 |
36 | Thermochemical processing of macroalgae: a late bloomer in the development of third-generation biofuels? | Biofuels | 2012 | 74 |
37 | Solid-state NMR characterization of switchgrass cellulose after dilute acid pretreatment | Biofuels | 2010 | 65 |
38 | Biomass storage: an update on industrial solutions for baled biomass feedstocks | Biofuels | 2012 | 65 |
39 | Effect of light intensity and pH condition on the growth, biomass and lipid content of microalgae Scenedesmus species | Biofuels | 2015 | 65 |
40 | Combustion, performance, vibration and noise characteristics of cottonseed methyl ester–diesel blends fuelled engine | Biofuels | 2022 | 61 |
41 | Drought effects on composition and yield for corn stover, mixed grasses, andMiscanthusas bioenergy feedstocks | Biofuels | 2014 | 60 |
42 | A packed bed Ammonia Fiber Expansion reactor system for pretreatment of agricultural residues at regional depots | Biofuels | 2013 | 59 |
43 | Effects of altered lignin biosynthesis on phenylpropanoid metabolism and plant stress | Biofuels | 2013 | 59 |
44 | Aquatic plants: an opportunity feedstock in the age of bioenergy | Biofuels | 2010 | 57 |
45 | Perspectives on metabolic engineering for increased lipid contents in microalgae | Biofuels | 2012 | 57 |
46 | Comparative techno-economic analysis of advanced biofuels, biochemicals, and hydrocarbon chemicals via the fast pyrolysis platform | Biofuels | 2016 | 57 |
47 | An overview of transesterification methods for producing biodiesel from waste vegetable oils | Biofuels | 2019 | 57 |
48 | Artificial photosynthesis – solar fuels: current status and future prospects | Biofuels | 2010 | 56 |
49 | Catalysts used in biodiesel production: a review | Biofuels | 2021 | 55 |
50 | Heterogeneous catalytic oxidation of lignin into value-added chemicals | Biofuels | 2012 | 53 |