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A manufacturing process for an energy storage device using 3D printing

Anan Tanwilaisiri, Ruirong Zhang, Yanmeng Xu, David Harrison, John Fyson
2016 2016 IEEE International Conference on Industrial Technology (ICIT)  
The method relies on creating a frame for the energy storage device, i.e. supercapacitor, by the FDM 3D printer and then depositing the conductive layers and electrodes of the supercapacitor using Paste  ...  This paper describes a manufacturing process for electrochemical supercapacitors using the combination of the two techniques of 3D printing which are Fused Deposition Modelling (FDM) and a Paste Extrusion  ...  The method demonstrated in this paper opens up a novel approach for manufacturing embedded energy storage devices. II. EXPERIMENT A.  ... 
doi:10.1109/icit.2016.7474869 dblp:conf/icit2/TanwilaisiriZXH16 fatcat:vrqtmjvxszbjddaebuk6efwm4a

A Review on Advanced Manufacturing for Hydrogen Storage Applications

Zach Free, Maya Hernandez, Mustafa Mashal, Kunal Mondal
2021 Energies  
Hydrogen is a notoriously difficult substance to store yet has endless energy applications.  ...  Concepts regarding storage shape and materials accompanied by smaller-scale advanced manufacturing options for hydrogen storage are also presented.  ...  Lastly, a steam storage tank was reported using 3D printing which could be useful for the hydrogen storage application [ 102 ].  ... 
doi:10.3390/en14248513 fatcat:hbc7l7xgozc63dpvywqg6vhpf4

Three‐dimensional printing of high‐mass loading electrodes for energy storage applications

Hao Yang, Zhaoxuan Feng, Xiaoling Teng, Lu Guan, Han Hu, Mingbo Wu
2021 InfoMat  
Very recently, three-dimensional (3D) printing, a promising additive manufacturing technology, has been considered as an emerging method to address the aforementioned issues where the 3D printed electrodes  ...  K E Y W O R D S 3D printing, electrode structures, energy storage devices, high-mass loading, thick electrodes  ...  Energy storage devices with interdigitated electrodes are an appealing power source for many on-chip devices used for information technology.  ... 
doi:10.1002/inf2.12181 fatcat:cwd565y2sjbzbd472ja6loc6g4

Design and fabrication of modular supercapacitors using 3D printing

Anan Tanwilaisiri, Yanmeng Xu, Ruirong Zhang, David Harrison, John Fyson, Milad Areir
2018 Journal of Energy Storage  
A combination of two 3D printing systems, i.e. a Fused Deposition Modelling (FDM) printer and a paste extruder, were applied to fabricate these energy storage devices.  ...  This paper describes a design and manufacturing process for electrochemical supercapacitors.  ...  For 3D printed energy storage devices, Sun [18] introduced 3D interdigitated microbattery architectures (3D-IMA).  ... 
doi:10.1016/j.est.2017.12.020 fatcat:d2zpulqqpzbklnvykvcaerkyie

Advances in 3D Printing for Electrochemical Energy Storage Systems

Ankitha Menon, Abdullah Khan, Neethu T.M. Balakrishnan, Prasanth Raghavan, Carlos A. Leon y Leon, Haris Ali Khan, M.J. Jabeen Fatima, Peter Samora Owuor
2021 Journal of Material Science and Technology Research  
In the current scenario, energy generation is relied on the portable gadgets with more efficiency paving a way for new versatile and smart techniques for device fabrication. 3D printing is one of the most  ...  This review highlights recent and important advances made in 3D printing of energy storage devices.  ...  ACKNOWLEDGEMENT The authors J.F.M.J, A.M and P.R greatly acknowledge Kerala State Council for Science, Environment and Technology (KSCSTE) and University Grants Commission (UGC) for financial support.  ... 
doi:10.31875/2410-4701.2021.08.7 fatcat:t4reqo64ena2ja3rozrxabixeq

Additive manufacturing for energy storage: Methods, designs and materials selection for customizable 3D printed batteries and supercapacitors [article]

Umair Gulzar, Colm Glynn, Colm O'Dwyer
2019 arXiv   pre-print
For electrochemical energy storage devices such as batteries and supercapacitors, 3D printing methods allows alternative form factors to be conceived based on the end use application need in mind at the  ...  The interplay between electrochemical response, stability, material type, object complexity and end use application are key to realising 3D printing for electrochemical energy storage.  ...  This Opinion only explores the recent use of AM in the field of electrochemical energy storage devices (EESDs), mainly 3D printed batteries and supercapacitors.  ... 
arXiv:1912.04755v1 fatcat:yfxiy5i4vratbjsis4lmmwamo4

Additive Manufacturing: Rethinking Battery Design

C. L. Cobb, C. C. Ho
2016 The Electrochemical Society Interface  
Additive manufacturing (AM) is a suite of manufacturing processes that is currently changing the way we design and manufacture products. 1 AM technology will lead to a revolution in the way energy storage  ...  These technology progressions have motivated a shift in energy storage design and manufacturing to accommodate novel materials, new device geometries, and non-traditional fabrication methods.  ...  AM methodologies have created new paradigms in manufacturing and design for energy storage devices, and will enable new battery materials, structures, integration methods.  ... 
doi:10.1149/2.f08161if fatcat:bdbcduorpbavbptmchpjemh54e

Evolution of 3D Printing Methods and Materials for Electrochemical Energy Storage [article]

Vladimir Egorov, Umair Gulzar, Yan Zhang, Siobhán Breen, Colm O'Dwyer
2019 arXiv   pre-print
an extent, that the future of 3D printable batteries and electrochemical energy storage devices will depend on materials and printing methods that are co-operatively informed by the requirements of the  ...  and hobbyists alike. 3D printing has emerged as a useful tool for complex electrode and material assembly method for batteries and supercapacitors in recent years.  ...  Figure 2 . 2 A timeline of 3D printing methods, materials and structures for energy storage devices from 2013 through 2019.  ... 
arXiv:1912.04400v1 fatcat:qcdwrrbksfb7pg4lm36a2yoj7i

Next-Generation Additive Manufacturing of Complete Standalone Sodium-Ion Energy Storage Architectures

Michael P. Down, Emiliano Martínez-Periñán, Christopher W. Foster, Encarnación Lorenzo, G. C. Smith, Craig E. Banks
2019 Advanced Energy Materials  
Keywords 3D printing, additive manufacturing, advanced materials, batteries, energy Received: September 28, 2018 Revised: November 30, 2018 Published online: February 10, 2019  ...  of energy storage devices  ...  [18, 19] Therefore, the manufacture and fabrication of highly active 3D printable filaments are paramount to the success of AM/3D printed energy storage devices.  ... 
doi:10.1002/aenm.201803019 fatcat:lckot2lboralli44ld2zwf5diy

Flexible Carbon Based Nanoelectronics with Printing Approaches

2021 Letters in Applied NanoBioScience  
There are numerous cases from mechanically flexible and portable thin-film transistors based on carbon materials, flexible and stretchable energy storage applications, flexible sensors applications to  ...  Recent studies in flexible carbon materials-based nanoelectronics suggest that in addition to the advancement, multidisciplinary approaches such as 3D printing, incorporating almost every area of the conventional  ...  In particular, 3D printing technology has serious advantages over existing technologies for manufacturing functional devices for energy storage in a small area to apply the biomedical field.  ... 
doi:10.33263/lianbs113.37283737 fatcat:wwjej27u4ffe7h53feshn6a6im

3D Systems' Technology Overview and New Applications in Manufacturing, Engineering, Science, and Education

Trevor J. Snyder, Mike Andrews, Mark Weislogel, Peter Moeck, Jennifer Stone-Sundberg, Derek Birkes, Madeline Paige Hoffert, Adam Lindeman, Jeff Morrill, Ondrej Fercak, Sasha Friedman, Jeff Gunderson (+12 others)
2014 3D Printing and Additive Manufacturing  
This article presents an overview of current 3D printing technologies and shows numerous examples from a multitude of fields from manufacturing to education. Figure 18.  ...  Since the inception of 3D printing, an evolutionary process has taken place in which specific user and customer needs have crossed paths with the capabilities of a growing number of machines to create  ...  Snyder is a Principal Scientist and Mechanical Engineer working for 3D Systems in Wilsonville, Oregon.  ... 
doi:10.1089/3dp.2014.1502 pmid:28473997 pmcid:PMC5363289 fatcat:6spl3lulejb7rcegrbmhvmubua

Single-operation, multi-phase additive manufacture of electro-chemical double layer capacitor devices

Lukas Fieber, Jack D. Evans, Chun Huang, Patrick S. Grant
2019 Additive Manufacturing  
The work aims to accelerate progress towards monolithic integration of energy storage devices in product manufacture, offering an alternative fabrication process for applications with irregular volume/  ...  However, in terms of energy storage devices such as batteries and supercapacitors, the benefits of AM have not yet been explored to any significant extent.  ...  EP/ M009521/1), Robin Vincent and Gideon Ring for support in constructing the bespoke hybrid-AM machine, Andrew Lui for conducting the XRT scans.  ... 
doi:10.1016/j.addma.2019.05.001 fatcat:4fmltfy47reubbaesqdhwnhn6e

3D printing of highly flexible supercapacitor designed for wearable energy storage

Milad Areir, Yanmeng Xu, David Harrison, John Fyson
2017 Materials Science & Engineering: B. Solid-state Materials for Advanced Technology  
A B S T R A C T The rapid development of flexible energy storage devices is crucial for various applications.  ...  This paper presents a novel method of manufacturing highly flexible EDLCs by using an open source 3D printer.  ...  Acknowledgement The authors would like to thank the Ministry of Higher Education and Scientific Research of Libya for providing funds to carry out this work.  ... 
doi:10.1016/j.mseb.2017.09.004 fatcat:6sxlbcooondftpeenp35g6mwqm

MRS volume 41 issue 10 Cover and Front matter

2016 MRS bulletin  
Metallic materials for 3D printing.  ...  The cover shows an additively manufactured nickel-based superalloy component, which was 3D-printed at Oak Ridge National Laboratory, demonstrating the ability to print on-demand metallic microstructures  ...  The cover shows an additively manufactured nickel-based superalloy component, which was 3D-printed at Oak Ridge National Laboratory, demonstrating the ability to print on-demand metallic microstructures  ... 
doi:10.1557/mrs.2016.238 fatcat:evvxx7lmqzaizemhicb27a2s74

Architected Porous Metals in Electrochemical Energy Storage

Vladimir Egorov, Colm O'Dwyer
2020 Current Opinion in Electrochemistry  
Abstract Porous metallic structures are regularly used in electrochemical energy storage devices as supports, current collectors or active electrode materials.  ...  Please cite this article as: Egorov V, O'Dwyer C, Architected Porous Metals in Electrochemical Energy Storage, Current Opinion in Electrochemistry, https://doi.  ...  to electrochemical energy storage processes.  ... 
doi:10.1016/j.coelec.2020.02.011 fatcat:obwnwt3gmbdytc3ejuq3qhhn6i
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