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3D Printing Temperature Tailors Electrical and Electrochemical Properties through Changing Inner Distribution of Graphite/Polymer

The result's identifiers

  • Result code in IS VaVaI

    <a href="https://www.isvavai.cz/riv?ss=detail&h=RIV%2F62156489%3A43210%2F21%3A43919740" target="_blank" >RIV/62156489:43210/21:43919740 - isvavai.cz</a>

  • Alternative codes found

    RIV/00216305:26620/21:PU141593 RIV/60461373:22310/21:43924030

  • Result on the web

    <a href="https://doi.org/10.1002/smll.202101233" target="_blank" >https://doi.org/10.1002/smll.202101233</a>

  • DOI - Digital Object Identifier

    <a href="http://dx.doi.org/10.1002/smll.202101233" target="_blank" >10.1002/smll.202101233</a>

Alternative languages

  • Result language

    angličtina

  • Original language name

    3D Printing Temperature Tailors Electrical and Electrochemical Properties through Changing Inner Distribution of Graphite/Polymer

  • Original language description

    The rise of 3D printing technology, with fused deposition modeling as one of the simplest and most widely used techniques, has empowered an increasing interest for composite filaments, providing additional functionality to 3D-printed components. For future applications, like electrochemical energy storage, energy conversion, and sensing, the tuning of the electrochemical properties of the filament and its characterization is of eminent importance to improve the performance of 3D-printed devices. In this work, customized conductive graphite/poly(lactic acid) filament with a percentage of graphite filler close to the conductivity percolation limit is fabricated and 3D-printed into electrochemical devices. Detailed scanning electrochemical microscopy investigations demonstrate that 3D-printing temperature has a dramatic effect on the conductivity and electrochemical performance due to a changed conducive filler/polymer distribution. This may allow, e.g., 3D printing of active/inactive parts of the same structure from the same filament when changing the 3D printing nozzle temperature. These tailored properties can have profound influence on the application of these 3D-printed composites, which can lead to a dramatically different functionality of the final electrical, electrochemical, and energy storage device.

  • Czech name

  • Czech description

Classification

  • Type

    J<sub>imp</sub> - Article in a specialist periodical, which is included in the Web of Science database

  • CEP classification

  • OECD FORD branch

    10405 - Electrochemistry (dry cells, batteries, fuel cells, corrosion metals, electrolysis)

Result continuities

  • Project

    Result was created during the realization of more than one project. More information in the Projects tab.

  • Continuities

    I - Institucionalni podpora na dlouhodoby koncepcni rozvoj vyzkumne organizace

Others

  • Publication year

    2021

  • Confidentiality

    S - Úplné a pravdivé údaje o projektu nepodléhají ochraně podle zvláštních právních předpisů

Data specific for result type

  • Name of the periodical

    Small

  • ISSN

    1613-6810

  • e-ISSN

  • Volume of the periodical

    17

  • Issue of the periodical within the volume

    24

  • Country of publishing house

    DE - GERMANY

  • Number of pages

    9

  • Pages from-to

    2101233

  • UT code for WoS article

    000646072400001

  • EID of the result in the Scopus database

    2-s2.0-85105009743