The rapidly increasing demand for wearable electronic devices has motivated research in low-cost and flexible printed batteries with diverse form factors and architectures.In the past,technological achieve-ments in the field have been emphasized,overlooking the industrial and market requirements.However,different applications require different battery chemistries and formats,that greatly impacts the manu-facturing process and competition landscape.These chemistries and formats should therefore be selected carefully to maximize the chances for commercial success.As some of these technologies are starting to be marketed for portable electronics,there is a pressing need to evaluate different printing technologies and compare them in terms of the processing constraints and product requirements of specific electronic devices.By evaluating the intrinsic strengths and current limitations of printed battery technologies,development pathways can be prioritized,and potential bottlenecks can be overcome to accelerate the path to market.

Benoit Clement;Miaoqiang Lyu;Eeshan Sandeep Kulkarni;Tongen Lin;Yuxiang Hu;Vera Lockett;Chris Greig;Lianzhou Wang

Nanomaterials Centre,School of Chemical Engineering and Australian Institute for Bioengineering and Nanotechnology,The University of Queensland,Brisbane,QLD 4072,Australia;Dow Centre for Sustainable Engineering Innovation,School of Chemical Engineering,The University of Queensland,Brisbane,QLD 4072,Australia;Printed Energy Pty.Ltd.,Brisbane,QLD 4001,Australia;Printed Energy Pty.Ltd.,Tempe,AZ 85284,USA

工程（英文）

[1]Benoit Clement;Miaoqiang Lyu;Eeshan Sandeep Kulkarni;Tongen Lin;Yuxiang Hu;Vera Lockett;Chris Greig;Lianzhou Wang-.Recent Advances in Printed Thin-Film Batteries)[J].工程（英文）,2022(06):238-261

overlooking

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