32 research outputs found
A kognitÃv készségek rendszere és fejlÅ‘dése
Additional file 7: Figure S1. The KEGG pathways separately enriched with hypermethylated (a) and hypomethylated (b) genes in at least 10% of the 539 TCGA lung adenocarcinoma samples
Evolution of the maximum regret value of the worst player with <i>I</i> = 100, <i>I</i> = 300, and <i>I</i> = 600 with non-uniform user distribution.
<p>Evolution of the maximum regret value of the worst player with <i>I</i> = 100, <i>I</i> = 300, and <i>I</i> = 600 with non-uniform user distribution.</p
User outage percentage for SSF, ICE, and the proposed method.
<p>User outage percentage for SSF, ICE, and the proposed method.</p
System power consumption for SSF, ICE, and the proposed method.
<p>System power consumption for SSF, ICE, and the proposed method.</p
Cellular network model with SSF based BS association with a uniform user distribution.
<p>Cellular network model with SSF based BS association with a uniform user distribution.</p
Algorithm 1: Proposed pilot power selection algorithm.
<p>Algorithm 1: Proposed pilot power selection algorithm.</p
Energy depleting rate for SSF, ICE, and the proposed method.
<p>Energy depleting rate for SSF, ICE, and the proposed method.</p
Flexible Light-Emitting Devices Based on Chirality-Sorted Semiconducting Carbon Nanotube Films
Near-infrared light-emitting devices
based on chirality-sorted (8,3), (8,4) enriched carbon nanotubes (CNTs)
are fabricated on transparent and flexible substrate. The devices
emit near-infrared light with well-defined wavelength, narrow peak
width and high intensity. 500 times bending test also shows that the
electric properties and electroluminescence (EL) spectra of devices
do not decay apparently. This work demonstrates that chirality-sorted
CNTs have large advantages in transparent and flexible infrared light
source applications
Flexible Light-Emitting Devices Based on Chirality-Sorted Semiconducting Carbon Nanotube Films
Near-infrared light-emitting devices
based on chirality-sorted (8,3), (8,4) enriched carbon nanotubes (CNTs)
are fabricated on transparent and flexible substrate. The devices
emit near-infrared light with well-defined wavelength, narrow peak
width and high intensity. 500 times bending test also shows that the
electric properties and electroluminescence (EL) spectra of devices
do not decay apparently. This work demonstrates that chirality-sorted
CNTs have large advantages in transparent and flexible infrared light
source applications