Biopolymer Electrolyte Membranes (BioPEMs) for Sustainable Primary Redox Batteries

Alday, Perla; Barros, Sandra Maria Pinto Cerqueira; Alves, Raquel Diana Carneiro; Esperança, José M. S. S.; Navarro‐Segarra, Marina; Sabaté, N.; Silva, Maria Manuela; Esquivel, Juan Pablo

doi:10.1002/adsu.201900110

Cited by 7 publications

(9 citation statements)

References 40 publications

(92 reference statements)

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“…Biopolymer electrolyte membranes (BPEs) are synthesized with various biopolymers, including cellulose, chitosan, and starch [ 106 , 107 ]. Chitosan-cellulose-based BPEs were synthesized by mixing the chitosan in hydroxypropyl methylcellulose, and ionic liquids were subsequently added to increase conductivity [ 106 ].…”

Section: Fabrication and Characterization Methodsmentioning

confidence: 99%

The Integration of Biopolymer-Based Materials for Energy Storage Applications: A Review

Dalwadi

Goel

Kapetanakis

et al. 2023

IJMS

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Biopolymers are an emerging class of novel materials with diverse applications and properties such as superior sustainability and tunability. Here, applications of biopolymers are described in the context of energy storage devices, namely lithium-based batteries, zinc-based batteries, and capacitors. Current demand for energy storage technologies calls for improved energy density, preserved performance overtime, and more sustainable end-of-life behavior. Lithium-based and zinc-based batteries often face anode corrosion from processes such as dendrite formation. Capacitors typically struggle with achieving functional energy density caused by an inability to efficiently charge and discharge. Both classes of energy storage need to be packaged with sustainable materials due to their potential leakages of toxic metals. In this review paper, recent progress in energy applications is described for biocompatible polymers such as silk, keratin, collagen, chitosan, cellulose, and agarose. Fabrication techniques are described for various components of the battery/capacitors including the electrode, electrolyte, and separators with biopolymers. Of these methods, incorporating the porosity found within various biopolymers is commonly used to maximize ion transport in the electrolyte and prevent dendrite formations in lithium-based, zinc-based batteries, and capacitors. Overall, integrating biopolymers in energy storage solutions poses a promising alternative that can theoretically match traditional energy sources while eliminating harmful consequences to the environment.

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Section: Fabrication and Characterization Methodsmentioning

confidence: 99%

The Integration of Biopolymer-Based Materials for Energy Storage Applications: A Review

Dalwadi

Goel

Kapetanakis

et al. 2023

IJMS

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“…However, the perfluorosulfonic acid copolymer proton exchange membranes in these cells are still an important environmental problem. In Alday's work 135 , biopolymer electrolyte membranes (Bio-PEMs) were synthesized from starch, cellulose, and chitosan. The starch-based Bio-PEMs were doped with ionic liquid, glycerol, or urea (Fig.…”

Section: Other Electronics On Starch Filmsmentioning

confidence: 99%

Green flexible electronics based on starch

Xiang

Liu

et al. 2022

npj Flex Electron

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Flexible electronics (FEs) with excellent flexibility or foldability may find widespread applications in the wearable devices, artificial intelligence (AI), Internet of Things (IoT), and other areas. However, the widely utilization may also bring the concerning for the fast accumulation of electronic waste. Green FEs with good degradability might supply a way to overcome this problem. Starch, as one of the most abundant natural polymers, has been exhibiting great potentials in the development of environmental-friendly FEs due to its inexpensiveness, good processability, and biodegradability. Lots of remarks were made this field but no summary was found. In this review, we discussed the preparation and applications of starch-based FEs, highlighting the role played by the starch in such FEs and the impacts on the properties. Finally, the challenge was discussed and the outlook for the further development was also presented.

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“…Although they provide comparable energy and power density, they face challenges related to their dependence on PEMs based on non-environmentally friendly, high-priced perfluorosulfonic acid copolymers, which require energy-intense manufacturing and recycling procedures. Alday et al [178] synthesised eco-friendly and sustainable biopolymer electrolyte membranes (BioPEMs) from biopolymers such as chitosan, cellulose, and starch. These BioPEMs present advantages in performance, sustainability, and cost.…”

Section: Membranes For Batteriesmentioning

confidence: 99%

Overview of Membrane Science and Technology in Portugal

et al. 2022

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Membrane research in Portugal is aligned with global concerns and expectations for sustainable social development, thus progressively focusing on the use of natural resources and renewable energy. This review begins by addressing the pioneer work on membrane science and technology in Portugal by the research groups of Instituto Superior Técnico—Universidade de Lisboa (IST), NOVA School of Science and Technology—Universidade Nova de Lisboa (FCT NOVA) and Faculdade de Engenharia—Universidade do Porto (FEUP) aiming to provide an historical perspective on the topic. Then, an overview of the trends and challenges in membrane processes and materials, mostly in the last five years, involving Portuguese researchers, is presented as a contribution to a more sustainable water–energy–material–food nexus.

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Biopolymer Electrolyte Membranes (BioPEMs) for Sustainable Primary Redox Batteries

Cited by 7 publications

References 40 publications

The Integration of Biopolymer-Based Materials for Energy Storage Applications: A Review

The Integration of Biopolymer-Based Materials for Energy Storage Applications: A Review

Green flexible electronics based on starch

Overview of Membrane Science and Technology in Portugal

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