J
J. Annie Modestra
Researcher at Indian Institute of Chemical Technology
Publications - 34
Citations - 1608
J. Annie Modestra is an academic researcher from Indian Institute of Chemical Technology. The author has contributed to research in topics: Microbial fuel cell & Biohydrogen. The author has an hindex of 18, co-authored 31 publications receiving 1179 citations. Previous affiliations of J. Annie Modestra include Academy of Scientific and Innovative Research.
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Microbial fuel cell: Critical factors regulating bio-catalyzed electrochemical process and recent advancements
TL;DR: In this paper, an overview on the fundamental operational mechanism of MFC encompassing electromotive force, electron delivery, electron transfer, losses encountered during operation, and specific function of physical, biological and operational factors on the bioelectrogenic activity is elaborated.
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A Circular Bioeconomy with Biobased Products from CO2 Sequestration.
TL;DR: Four conceptual models forCO2 biosequestration and the synthesis of biobased products, as well as an integrated CO2 biorefinery model, are proposed and might overcome the limitations of existing sequestration methods and could help realign the carbon balance.
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Microbial electrochemical technologies with the perspective of harnessing bioenergy: Maneuvering towards upscaling
Sai Kishore Butti,G. Velvizhi,Mira L.K. Sulonen,Johanna M. Haavisto,Emre Oguz Koroglu,Afsin Y. Cetinkaya,Surya Prakash Singh,Divyanshu Arya,J. Annie Modestra,K. Vamsi Krishna,Anil Kumar Verma,Bestami Ozkaya,Aino-Maija Lakaniemi,Jaakko A. Puhakka,S. Venkata Mohan +14 more
TL;DR: In this article, a review of the challenges and strategies to improve the performance of bio-electrocatalyzed systems with respect to the operational, physico-chemical and biological factors is presented.
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Bio-electrocatalytic reduction of CO2: Enrichment of homoacetogens and pH optimization towards enhancement of carboxylic acids biosynthesis
TL;DR: In this paper, a three-stage experimental design using BESA treated and untreated (control) anaerobic consortia was proposed for specific reduction of single carbon unit (C1-CO2) to two-carbon (C2-CH3COOH) carboxylic acids.
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Highly efficient sulfonated polybenzimidazole as a proton exchange membrane for microbial fuel cells
TL;DR: In this article, the authors used oxy-polybenzimidazole and its sulfonated analogue (S-OPBI) as alternate proton exchange membrane (PEM) in single-chambered MFCs.