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Michelle J. Serapiglia
Researcher at Cornell University
Publications - 30
Citations - 1129
Michelle J. Serapiglia is an academic researcher from Cornell University. The author has contributed to research in topics: Biomass & Willow. The author has an hindex of 19, co-authored 30 publications receiving 932 citations. Previous affiliations of Michelle J. Serapiglia include State University of New York College of Environmental Science and Forestry & United States Department of Agriculture.
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Journal ArticleDOI
Pyrolysis of Centimeter-Scale Woody Biomass Particles: Kinetic Modeling and Experimental Validation
Michele Corbetta,Alessio Frassoldati,Hayat Bennadji,Krystle Smith,Michelle J. Serapiglia,Guillaume Gauthier,Thierry Melkior,Eliseo Ranzi,Elizabeth M. Fisher +8 more
TL;DR: In this article, an updated comprehensive pyrolysis model including chemical reactions and transport of heat and species, implemented independently in two different software environments, is compared to experimental results of three independent sets of centimeter-scale experiments.
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Catalytic pyrolysis-GC/MS of Spirulina: Evaluation of a highly proteinaceous biomass source for production of fuels and chemicals ☆
Bruna M. E. Chagas,Bruna M. E. Chagas,Christina Dorado,Michelle J. Serapiglia,Charles A. Mullen,Akwasi A. Boateng,Marcus Antônio de Freitas Melo,Carlos Henrique Ataíde +7 more
TL;DR: In this article, the catalytic pyrolysis of Spirulina (Arthrospira spp.) over several zeolite catalysts using GC-MS was studied to explore the optimum and scalable conditions for the production of stable liquid intermediates via analysis of condensable vapors.
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Yield and Woody Biomass Traits of Novel Shrub Willow Hybrids at Two Contrasting Sites
Michelle J. Serapiglia,Kimberly D. Cameron,Kimberly D. Cameron,Arthur J. Stipanovic,Lawrence P. Abrahamson,Timothy A. Volk,Lawrence B. Smart +6 more
TL;DR: These trials demonstrate that new genotypes produce improved yield and pest and disease resistance, with diverse compositional traits that can be matched with conversion technologies.
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Overexpression of SbMyb60 impacts phenylpropanoid biosynthesis and alters secondary cell wall composition in Sorghum bicolor.
Erin D. Scully,Erin D. Scully,Tammy Gries,Gautam Sarath,Nathan A. Palmer,Lisa M. Baird,Michelle J. Serapiglia,Bruce S. Dien,Akwasi A. Boateng,Zhengxiang Ge,Deanna L. Funnell-Harris,Deanna L. Funnell-Harris,Paul Twigg,Thomas E. Clemente,Scott E. Sattler,Scott E. Sattler +15 more
TL;DR: Results indicate that overexpression of SbMyb60 is associated with activation of monolignol biosynthesis in sorghum, which represents a target for modification of plant cell wall composition, with the potential to improve biomass for renewable uses.
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Analysis of Biomass Composition Using High-Resolution Thermogravimetric Analysis and Percent Bark Content for the Selection of Shrub Willow Bioenergy Crop Varieties
TL;DR: In this article, a high-resolution thermogravimetric analysis (HR-TGA) was developed as a rapid, low-cost method for analyzing large numbers of willow biomass samples.