Taek Yong Kim scite author profile

Direct measurement of the adhesion energy of monolayer graphene as-grown on metal substrates is important to better understand its bonding mechanism and control the mechanical release of the graphene from the substrates, but it has not been reported yet. We report the adhesion energy of large-area monolayer graphene synthesized on copper measured by double cantilever beam fracture mechanics testing. The adhesion energy of 0.72 ± 0.07 J m(-2) was found. Knowing the directly measured value, we further demonstrate the etching-free renewable transfer process of monolayer graphene that utilizes the repetition of the mechanical delamination followed by the regrowth of monolayer graphene on a copper substrate.

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Electromagnetic interference shielding effectiveness of monolayer graphene

Hong

et al. 2012

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We report the first experimental results on the electromagnetic interference (EMI) shielding effectiveness (SE) of monolayer graphene. The monolayer CVD graphene has an average SE value of 2.27 dB, corresponding to ~40% shielding of incident waves. CVD graphene shows more than seven times (in terms of dB) greater SE than gold film. The dominant mechanism is absorption rather than reflection, and the portion of absorption decreases with an increase in the number of graphene layers. Our modeling work shows that plane-wave theory for metal shielding is also applicable to graphene. The model predicts that ideal monolayer graphene can shield as much as 97.8% of EMI. This suggests the feasibility of manufacturing an ultrathin, transparent, and flexible EMI shield by single or few-layer graphene.

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Improvement of graphene–metal contact resistance by introducing edge contacts at graphene under metal

Song

Kim

Sul

et al. 2014

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We report an alternative approach to lower contact resistance and extend charge transfer length by forming graphene antidot arrays under metal electrode to introduce edge contact of graphene. The edge contact resistivity of ∼2.2 × 10−9 Ω·cm2 is experimentally estimated, based on the experiment and one-dimensional equivalent circuit model, and the result agrees well with the previous theoretical report. The proposed contact module structure can open alternative ways to overcome the poor contact performance and the current crowding effect at the metal-graphene contact.

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Impact of Interlayer Processing Conditions on the Performance of GaN Light-Emitting Diode with Specific NiO_x/Graphene Electrode

Chandramohan

Kang

Ryu

et al. 2013

ACS Appl. Mater. Interfaces

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This paper reports on the evaluation of the impact of introducing interlayers and postmetallization annealing on the graphene/p-GaN ohmic contact formation and performance of associated devices. Current-voltage characteristics of the graphene/p-GaN contacts with ultrathin Au, Ni, and NiO(x) interlayers were studied using transmission line model with circular contact geometry. Direct graphene/p-GaN interface was identified to be highly rectifying and postmetallization annealing improved the contact characteristics as a result of improved adhesion between the graphene and the p-GaN. Ohmic contact formation was realized when interlayer is introduced between the graphene and p-GaN followed by postmetallization annealing. Temperature-dependent I-V measurements revealed that the current transport was modified from thermionic field emission for the direct graphene/p-GaN contact to tunneling for the graphene/metal/p-GaN contacts. The tunneling mechanism results from the interfacial reactions that occur between the metal and p-GaN during the postmetallization annealing. InGaN/GaN light-emitting diodes with NiO(x)/graphene current spreading electrode offered a forward voltage of 3.16 V comparable to that of its Ni/Au counterpart, but ended up with relatively low light output power. X-ray photoelectron spectroscopy provided evidence for the occurrence of phase transformation in the graphene-encased NiO(x) during the postmetallization annealing. The observed low light output is therefore correlated to the phase change induced transmittance loss in the NiO(x)/graphene electrode. These findings provide new insights into the behavior of different interlayers under processing conditions that will be useful for the future development of opto-electronic devices with graphene-based electrodes.

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Multilayered graphene anode for blue phosphorescent organic light emitting diodes

Hwang

Choi

Moon

et al. 2012

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In this work, we report on blue organic light emitting devices (OLEDs), which have multilayered graphene as its anode. Our graphene films have been grown catalytically and transferred to the support. The fabricated blue OLEDs with graphene anode showed outstanding external quantum efficiency of 15.6% and power efficiency of 24.1 lm/W at 1000 cd/m2. Weak oxygen plasma treatments on graphene film surfaces improved the injection property between the anode and hole injection layer.

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Taek Yong Kim

Direct Measurement of Adhesion Energy of Monolayer Graphene As-Grown on Copper and Its Application to Renewable Transfer Process

Electromagnetic interference shielding effectiveness of monolayer graphene

Improvement of graphene–metal contact resistance by introducing edge contacts at graphene under metal

Impact of Interlayer Processing Conditions on the Performance of GaN Light-Emitting Diode with Specific NiO_x/Graphene Electrode

Multilayered graphene anode for blue phosphorescent organic light emitting diodes

Contact Info

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Resources

About

Taek Yong Kim

Direct Measurement of Adhesion Energy of Monolayer Graphene As-Grown on Copper and Its Application to Renewable Transfer Process

Electromagnetic interference shielding effectiveness of monolayer graphene

Improvement of graphene–metal contact resistance by introducing edge contacts at graphene under metal

Impact of Interlayer Processing Conditions on the Performance of GaN Light-Emitting Diode with Specific NiOx/Graphene Electrode

Multilayered graphene anode for blue phosphorescent organic light emitting diodes

Contact Info

Product

Resources

About

Impact of Interlayer Processing Conditions on the Performance of GaN Light-Emitting Diode with Specific NiO_x/Graphene Electrode