# | Title | Journal | Year | Citations |
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1 | REVIEW: A review on biomass torrefaction process and product properties for energy applications | Industrial Biotechnology | 2011 | 500 |
2 | The Circular Bioeconomy—Concepts, Opportunities, and Limitations | Industrial Biotechnology | 2018 | 255 |
3 | Toxicity of Cellulose Nanocrystals: A Review | Industrial Biotechnology | 2015 | 248 |
4 | Applications of oxidoreductases: Recent progress | Industrial Biotechnology | 2005 | 213 |
5 | From wood to fuels: Integrating biofuels and pulp production | Industrial Biotechnology | 2006 | 213 |
6 | The biopesticide market for global agricultural use | Industrial Biotechnology | 2006 | 208 |
7 | Advances in the Production of High-Value Products by Microalgae | Industrial Biotechnology | 2014 | 199 |
8 | TECHNOLOGY UPDATE: Development of a gas-phase bioprocess for isoprene-monomer production using metabolic pathway engineering | Industrial Biotechnology | 2010 | 184 |
9 | Life Cycle Inventory and Impact Assessment Data for 2014 Ingeo™ Polylactide Production | Industrial Biotechnology | 2015 | 180 |
10 | ORIGINAL RESEARCH: The eco-profiles for current and near-future NatureWorks® polylactide (PLA) production | Industrial Biotechnology | 2007 | 174 |
11 | Revising the Representation of Fatty Acid, Glycerolipid, and Glycerophospholipid Metabolism in the Consensus Model of Yeast Metabolism | Industrial Biotechnology | 2013 | 148 |
12 | ORIGINAL RESEARCH: The eco-profile for current Ingeo® polylactide production | Industrial Biotechnology | 2010 | 145 |
13 | RESEARCH: Development of a mature fungal technology and production platform for industrial enzymes based on a Myceliophthora thermophila isolate, previously known as Chrysosporium lucknowense C1 | Industrial Biotechnology | 2011 | 140 |
14 | Formulation, Pretreatment, and Densification Options to Improve Biomass Specifications for Co-Firing High Percentages with Coal | Industrial Biotechnology | 2012 | 131 |
15 | Biobased Terephthalic Acid Technologies: A Literature Review | Industrial Biotechnology | 2014 | 127 |
16 | Nanoscale Science and Engineering for Agriculture and Food Systems | Industrial Biotechnology | 2013 | 122 |
17 | Biobased Building Blocks and Polymers in the World: Capacities, Production, and Applications–Status Quo and Trends Towards 2020 | Industrial Biotechnology | 2015 | 120 |
18 | Contamination Management in Low Cost Open Algae Ponds for Biofuels Production | Industrial Biotechnology | 2014 | 103 |
19 | ORIGINAL RESEARCH: Biocalcification bySporosarcina pasteuriiusing corn steep liquor as the nutrient source | Industrial Biotechnology | 2010 | 98 |
20 | REVIEWS: The business of biotechnology | Industrial Biotechnology | 2007 | 94 |
21 | REVIEW: Balancing limiting factors & economic drivers for sustainable Midwestern US agricultural residue feedstock supplies | Industrial Biotechnology | 2010 | 93 |
22 | The Generally Recognized as Safe (GRAS) Process for Industrial Microbial Enzymes | Industrial Biotechnology | 2016 | 93 |
23 | Long-Term Cultivation of Algae in Open-Raceway Ponds: Lessons from the Field | Industrial Biotechnology | 2015 | 92 |
24 | Biomass Characterization: Recent Progress in Understanding Biomass Recalcitrance | Industrial Biotechnology | 2012 | 90 |
25 | Second-Generation Ethanol: The Need is Becoming a Reality | Industrial Biotechnology | 2016 | 85 |
26 | National Bioeconomy Blueprint, April 2012 | Industrial Biotechnology | 2012 | 84 |
27 | A Review on Microbial Alkaline Protease: An Essential Tool for Various Industrial Approaches | Industrial Biotechnology | 2019 | 84 |
28 | Algal Biofertilizers and Plant Growth Stimulants for Sustainable Agriculture | Industrial Biotechnology | 2018 | 82 |
29 | ORIGINAL RESEARCH: Lignocellulose recalcitrance screening by integrated high-throughput hydrothermal pretreatment and enzymatic saccharification | Industrial Biotechnology | 2010 | 80 |
30 | Biobased Building Blocks and Polymers—Global Capacities, Production and Trends, 2018–2023 | Industrial Biotechnology | 2019 | 77 |
31 | Bioactivity and Biomodification of Ag, ZnO, and CuO Nanoparticles with Relevance to Plant Performance in Agriculture | Industrial Biotechnology | 2012 | 74 |
32 | An Aptasensor Based on Polymer-Gold Nanoparticle Composite Microspheres for the Detection of Malathion Using Surface-Enhanced Raman Spectroscopy | Industrial Biotechnology | 2013 | 73 |
33 | Phycocyanin from Microalgae: Properties, Extraction and Purification, with Some Recent Applications | Industrial Biotechnology | 2018 | 73 |
34 | Gold Nanoparticle-Modified Carbon Electrode Biosensor for the Detection of Listeria monocytogenes | Industrial Biotechnology | 2013 | 69 |
35 | Process economic considerations for production of ethanol from biomass feedstocks | Industrial Biotechnology | 2006 | 68 |
36 | PEER REVIEW ORIGINAL RESEARCH: EHS & LCA assessment for 7-ACA synthesis A case study for comparing biocatalytic & chemical synthesis | Industrial Biotechnology | 2008 | 66 |
37 | Bioprotective Culture: A New Generation of Food Additives for the Preservation of Food Quality and Safety | Industrial Biotechnology | 2019 | 64 |
38 | Large-Scale Metabolic Models: From Reconstruction to Differential Equations | Industrial Biotechnology | 2013 | 58 |
39 | Use of the Simons' Staining Technique to Assess Cellulose Accessibility in Pretreated Substrates | Industrial Biotechnology | 2012 | 56 |
40 | An Engineered Community Approach for Industrial Cultivation of Microalgae | Industrial Biotechnology | 2014 | 56 |
41 | Rhamnolipids: Well-Characterized Glycolipids with Potential Broad Applicability as Biosurfactants | Industrial Biotechnology | 2014 | 54 |
42 | Anaerobic Digestion-Based Biorefinery for Bioenergy and Biobased Products | Industrial Biotechnology | 2015 | 52 |
43 | Lignin Conversion: Opportunities and Challenges for the Integrated Biorefinery | Industrial Biotechnology | 2016 | 52 |
44 | ORIGINAL RESEARCH: A dedicated vector for efficient library construction and high throughput screening in the hyphal fungus Chrysosporium lucknowense | Industrial Biotechnology | 2007 | 45 |
45 | Selecting the most appropriate products for the forest biorefinery | Industrial Biotechnology | 2007 | 44 |
46 | Autotrophic Microalgae Biomass Production: From Niche Markets to Commodities | Industrial Biotechnology | 2018 | 43 |
47 | Bioaugmentation for chlorinated ethene detoxification: Bioaugmentation and molecular diagnostics in the bioremediation of chlorinated ethene-contaminated sites | Industrial Biotechnology | 2005 | 42 |
48 | FAME Production from Waste Oils Through Commercial Soluble Lipase Eversa® Catalysis | Industrial Biotechnology | 2016 | 42 |
49 | Synthesis of Biodegradable Polymer Polyhydroxyalkanoate (PHA) in CyanobacteriaSynechococcus elongatesUnder Mixotrophic Nitrogen- and Phosphate-Mediated Stress Conditions | Industrial Biotechnology | 2017 | 42 |
50 | Nanoscale Science and Engineering for Agriculture and Food Systems | Industrial Biotechnology | 2012 | 40 |