2017
DOI: 10.1007/s00542-017-3487-5
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Fabrication of electrochemical carbon-based microelectrodes using electrohydrodynamic jet printing technique

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Cited by 7 publications
(5 citation statements)
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“…[68] Graphene has also been a research focus for the fabrication of electrodes because of its characteristics such as high electrical mobility, thermal conductivity, and mechanical strength in recent years. [66,[69][70][71] Researchers have reported the electrodes made of graphene only, graphene mixed with other carbon materials, or graphene accompanied by platinum (Pt) which was fabricated by e-jet printing. In detail, Wang et al achieved graphene micro-scale structures by e-jet printing ethyl cellulose or Nafion dispersed graphene ink.…”
Section: Electrodes Of Carbon Materialsmentioning
confidence: 99%
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“…[68] Graphene has also been a research focus for the fabrication of electrodes because of its characteristics such as high electrical mobility, thermal conductivity, and mechanical strength in recent years. [66,[69][70][71] Researchers have reported the electrodes made of graphene only, graphene mixed with other carbon materials, or graphene accompanied by platinum (Pt) which was fabricated by e-jet printing. In detail, Wang et al achieved graphene micro-scale structures by e-jet printing ethyl cellulose or Nafion dispersed graphene ink.…”
Section: Electrodes Of Carbon Materialsmentioning
confidence: 99%
“…It means graphene enlarged the reaction area and enhanced electronic conduction which made the electrochemical reaction easier. [70] Zhao et al directly wrote graphene layer precisely on the Pt microelectrodes to form graphene/Pt composite microelectrodes by e-jet printing. The graphene did improve the electrochemical response of Pt microelectrodes.…”
Section: Electrodes Of Carbon Materialsmentioning
confidence: 99%
“…[21,22] For example, e-jet printing has been used to pattern thin films via lift-off, masked etching, and area-selective deposition. [9,[23][24][25][26][27] However, lift-off-based processes are restricted in the thermal and chemical processing conditions of the overlying film, which must be compatible with the printed "resist" material. Alternatively, while printed features could be used as etch masks for subsequent wet or dry etch processes, the etch compatibility of the printed material restricts the processability.…”
Section: Introductionmentioning
confidence: 99%
“…EHD patterning focuses on the deformation of the liquid film induced by a large-size electrode. A variety of applications are possible such as the fabrication of microlens array, , adhesive array, , and micro- or nanostructures. , EHD jetting focuses more on the multiple jet breakup modes like dripping, whipping, and atomization, , and diversifies the applications like EHD printing, , electroatomization, etc. Moreover, the fine control of the meniscus at the nozzle will result in droplets smaller than the nozzle diameter .…”
Section: Introductionmentioning
confidence: 99%