A 3D-printed battery can be defined as a battery manufactured by using metallic printed structures for applications such as super capacitors and microfluidic devices. Over the years, there has been an advancement toward designing and fabrication of complex structures by utilizing 3D printing. A 3D-printed battery can be defined as a battery manufactured by using metallic printed structures for applications such as super capacitors and microfluidic devices. Over the years, there has been an advancement toward designing and fabrication of complex structures by utilizing 3D printing.
3D printing has the ability to provide a beneficial platform for creation of low-cost 3D components for an extensive array of applications. 3D printing manufacturing reduces material, labor and transportation costs. Manufacturing units have been able to cut down on material wastage through the use of 3D printing. Also, governments across the world have already started investing in R&D on 3D printing, which has a positive impact on technology propagation and adoption. 3D printing technology provides a unique platform for rapid prototyping of numerous applications due to its ability to produce low-cost, 3D-printed platforms. For example, a graphene-based polylactic acid (graphene/PLA) filament has been 3D-printed to fabricate a wide range of 3D disk electrode (3DE) configurations by using the conventional RepRap FDM (fused deposition molding) 3D printer, which requires no further modification/ex-situ curing step.
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Factors such as increasing advent of Internet of Things (IoT) are propelling the 3D-printed battery market. Also, development of ultra-low-power electric components is augmenting the market. Furthermore, rising use of renewable energy calls for the need to store energy. This factor is also driving the 3D-printed battery market. On the other hand, high cost of equipment that are required to take 3D printing to an industrial scale are restraining the 3D-printed battery market. Also, lack of international standards bodies which regulate manufacturers is also hindering the 3D-printed battery market. In terms of architectural process, the 3D-printed battery market has been segmented into graphene-based PLA filaments, graphene-based Li-ion anodes, solid state graphene super capacitors, platinum-based electrodes, and others. Based on end-use application, the 3D-printed Battery Market has been divided into energy storage devices, electronics, and others. About Us Transparency Market Research is a next-generation market intelligence provider, offering fact-based solutions to business leaders, consultants, and strategy professionals. We are leaders in analytics, research, and advisory services for Fortune 500 companies, scores of high potential startups, and financial institutions. Our success stories have proven why we are a preeminent provider of cutting-edge syndicated and customized research services. Leverage the best of our seasoned research analysts who hold a keen interest and enviable expertise of almost 4 million hours in global, regional, and local market intelligence. TMR believes that unison of solutions for clients-specific problems with right methodology of research is the key to help enterprises reach right decision. US Office Contact 90 State Street, Suite 700 Albany, NY 12207 Tel: +1-518-618-1030 USA - Canada Toll Free: 866-552-3453