The Experts below are selected from a list of 36147 Experts worldwide ranked by ideXlab platform
Dong Ick Son - One of the best experts on this subject based on the ideXlab platform.
-
current bistability and carrier transport mechanisms of organic bistable devices based on hybrid ag nanoparticle polymethyl methacrylate polymer nanocomposites
Applied Physics Letters, 2010Co-Authors: Wontae Kim, Jae Hun Jung, Tae Whan Kim, Dong Ick SonAbstract:The current bistability and the carrier transport mechanisms of organic bistable devices (OBDs) using Ag nanoparticle-polymethyl methacrylate (PMMA) nanocomposites have been investigated. Current-voltage measurements at 300 K on the Al/Ag nanoparticles embedded in the PMMA layer/indium-tin-oxide devices exhibit a current bistability with an ON/OFF ratio of 103. Write-Read-erase-Read Sequence results demonstrate the switching characteristics of the OBD. The cycling endurance number of the ON/OFF switching for the OBD is above 7×104. The current bistability and carrier transport mechanisms of the OBD fabricated utilizing hybrid Ag nanoparticle-PMMA polymer nanocomposites are described on the basis of the experimental data.The current bistability and the carrier transport mechanisms of organic bistable devices (OBDs) using Ag nanoparticle-polymethyl methacrylate (PMMA) nanocomposites have been investigated. Current-voltage measurements at 300 K on the Al/Ag nanoparticles embedded in the PMMA layer/indium-tin-oxide devices exhibit a current bistability with an ON/OFF ratio of 103. Write-Read-erase-Read Sequence results demonstrate the switching characteristics of the OBD. The cycling endurance number of the ON/OFF switching for the OBD is above 7×104. The current bistability and carrier transport mechanisms of the OBD fabricated utilizing hybrid Ag nanoparticle-PMMA polymer nanocomposites are described on the basis of the experimental data.
-
current bistability and carrier transport mechanisms of organic bistable devices based on hybrid ag nanoparticle polymethyl methacrylate polymer nanocomposites
Applied Physics Letters, 2010Co-Authors: Wontae Kim, Jae Hun Jung, Tae Whan Kim, Dong Ick SonAbstract:The current bistability and the carrier transport mechanisms of organic bistable devices (OBDs) using Ag nanoparticle-polymethyl methacrylate (PMMA) nanocomposites have been investigated. Current-voltage measurements at 300 K on the Al/Ag nanoparticles embedded in the PMMA layer/indium-tin-oxide devices exhibit a current bistability with an ON/OFF ratio of 103. Write-Read-erase-Read Sequence results demonstrate the switching characteristics of the OBD. The cycling endurance number of the ON/OFF switching for the OBD is above 7×104. The current bistability and carrier transport mechanisms of the OBD fabricated utilizing hybrid Ag nanoparticle-PMMA polymer nanocomposites are described on the basis of the experimental data.
Tae Whan Kim - One of the best experts on this subject based on the ideXlab platform.
-
memory stabilities and mechanisms of organic bistable devices with a phase separated poly methylmethacrylate poly 3 hexylthiophene hybrid layer
Organic Electronics, 2012Co-Authors: Woo Seung Song, Hee Yeon Yang, Chan Ho Yoo, Dong Yeol Yun, Tae Whan KimAbstract:Abstract Organic bistable devices (OBDs) with a poly(methylmethacrylate) (PMMA)/poly(3-hexylthiophene) (P3HT) hybrid layer, acting as a charge storage region, formed by using a vertical phase self-separation method were fabricated. The current–voltage curves of the Al/P3HT/PMMA/indium-tin-oxide devices exhibited current bistabilities with a maximum ON/OFF ratio of 1 × 104. The write-Read-erase-Read Sequence results demonstrated the switching characteristics of the OBDs. The cycling endurance number of the ON/OFF switching for the OBD was above 1 × 105. The memory characteristics of the OBDs were attributed to trapping and detrapping processes of electrons into and out of the P3HT/PMMA heterointerfaces.
-
current bistability and carrier transport mechanisms of organic bistable devices based on hybrid ag nanoparticle polymethyl methacrylate polymer nanocomposites
Applied Physics Letters, 2010Co-Authors: Wontae Kim, Jae Hun Jung, Tae Whan Kim, Dong Ick SonAbstract:The current bistability and the carrier transport mechanisms of organic bistable devices (OBDs) using Ag nanoparticle-polymethyl methacrylate (PMMA) nanocomposites have been investigated. Current-voltage measurements at 300 K on the Al/Ag nanoparticles embedded in the PMMA layer/indium-tin-oxide devices exhibit a current bistability with an ON/OFF ratio of 103. Write-Read-erase-Read Sequence results demonstrate the switching characteristics of the OBD. The cycling endurance number of the ON/OFF switching for the OBD is above 7×104. The current bistability and carrier transport mechanisms of the OBD fabricated utilizing hybrid Ag nanoparticle-PMMA polymer nanocomposites are described on the basis of the experimental data.The current bistability and the carrier transport mechanisms of organic bistable devices (OBDs) using Ag nanoparticle-polymethyl methacrylate (PMMA) nanocomposites have been investigated. Current-voltage measurements at 300 K on the Al/Ag nanoparticles embedded in the PMMA layer/indium-tin-oxide devices exhibit a current bistability with an ON/OFF ratio of 103. Write-Read-erase-Read Sequence results demonstrate the switching characteristics of the OBD. The cycling endurance number of the ON/OFF switching for the OBD is above 7×104. The current bistability and carrier transport mechanisms of the OBD fabricated utilizing hybrid Ag nanoparticle-PMMA polymer nanocomposites are described on the basis of the experimental data.
-
current bistability and carrier transport mechanisms of organic bistable devices based on hybrid ag nanoparticle polymethyl methacrylate polymer nanocomposites
Applied Physics Letters, 2010Co-Authors: Wontae Kim, Jae Hun Jung, Tae Whan Kim, Dong Ick SonAbstract:The current bistability and the carrier transport mechanisms of organic bistable devices (OBDs) using Ag nanoparticle-polymethyl methacrylate (PMMA) nanocomposites have been investigated. Current-voltage measurements at 300 K on the Al/Ag nanoparticles embedded in the PMMA layer/indium-tin-oxide devices exhibit a current bistability with an ON/OFF ratio of 103. Write-Read-erase-Read Sequence results demonstrate the switching characteristics of the OBD. The cycling endurance number of the ON/OFF switching for the OBD is above 7×104. The current bistability and carrier transport mechanisms of the OBD fabricated utilizing hybrid Ag nanoparticle-PMMA polymer nanocomposites are described on the basis of the experimental data.
Wontae Kim - One of the best experts on this subject based on the ideXlab platform.
-
current bistability and carrier transport mechanisms of organic bistable devices based on hybrid ag nanoparticle polymethyl methacrylate polymer nanocomposites
Applied Physics Letters, 2010Co-Authors: Wontae Kim, Jae Hun Jung, Tae Whan Kim, Dong Ick SonAbstract:The current bistability and the carrier transport mechanisms of organic bistable devices (OBDs) using Ag nanoparticle-polymethyl methacrylate (PMMA) nanocomposites have been investigated. Current-voltage measurements at 300 K on the Al/Ag nanoparticles embedded in the PMMA layer/indium-tin-oxide devices exhibit a current bistability with an ON/OFF ratio of 103. Write-Read-erase-Read Sequence results demonstrate the switching characteristics of the OBD. The cycling endurance number of the ON/OFF switching for the OBD is above 7×104. The current bistability and carrier transport mechanisms of the OBD fabricated utilizing hybrid Ag nanoparticle-PMMA polymer nanocomposites are described on the basis of the experimental data.The current bistability and the carrier transport mechanisms of organic bistable devices (OBDs) using Ag nanoparticle-polymethyl methacrylate (PMMA) nanocomposites have been investigated. Current-voltage measurements at 300 K on the Al/Ag nanoparticles embedded in the PMMA layer/indium-tin-oxide devices exhibit a current bistability with an ON/OFF ratio of 103. Write-Read-erase-Read Sequence results demonstrate the switching characteristics of the OBD. The cycling endurance number of the ON/OFF switching for the OBD is above 7×104. The current bistability and carrier transport mechanisms of the OBD fabricated utilizing hybrid Ag nanoparticle-PMMA polymer nanocomposites are described on the basis of the experimental data.
-
current bistability and carrier transport mechanisms of organic bistable devices based on hybrid ag nanoparticle polymethyl methacrylate polymer nanocomposites
Applied Physics Letters, 2010Co-Authors: Wontae Kim, Jae Hun Jung, Tae Whan Kim, Dong Ick SonAbstract:The current bistability and the carrier transport mechanisms of organic bistable devices (OBDs) using Ag nanoparticle-polymethyl methacrylate (PMMA) nanocomposites have been investigated. Current-voltage measurements at 300 K on the Al/Ag nanoparticles embedded in the PMMA layer/indium-tin-oxide devices exhibit a current bistability with an ON/OFF ratio of 103. Write-Read-erase-Read Sequence results demonstrate the switching characteristics of the OBD. The cycling endurance number of the ON/OFF switching for the OBD is above 7×104. The current bistability and carrier transport mechanisms of the OBD fabricated utilizing hybrid Ag nanoparticle-PMMA polymer nanocomposites are described on the basis of the experimental data.
Jae Hun Jung - One of the best experts on this subject based on the ideXlab platform.
-
current bistability and carrier transport mechanisms of organic bistable devices based on hybrid ag nanoparticle polymethyl methacrylate polymer nanocomposites
Applied Physics Letters, 2010Co-Authors: Wontae Kim, Jae Hun Jung, Tae Whan Kim, Dong Ick SonAbstract:The current bistability and the carrier transport mechanisms of organic bistable devices (OBDs) using Ag nanoparticle-polymethyl methacrylate (PMMA) nanocomposites have been investigated. Current-voltage measurements at 300 K on the Al/Ag nanoparticles embedded in the PMMA layer/indium-tin-oxide devices exhibit a current bistability with an ON/OFF ratio of 103. Write-Read-erase-Read Sequence results demonstrate the switching characteristics of the OBD. The cycling endurance number of the ON/OFF switching for the OBD is above 7×104. The current bistability and carrier transport mechanisms of the OBD fabricated utilizing hybrid Ag nanoparticle-PMMA polymer nanocomposites are described on the basis of the experimental data.The current bistability and the carrier transport mechanisms of organic bistable devices (OBDs) using Ag nanoparticle-polymethyl methacrylate (PMMA) nanocomposites have been investigated. Current-voltage measurements at 300 K on the Al/Ag nanoparticles embedded in the PMMA layer/indium-tin-oxide devices exhibit a current bistability with an ON/OFF ratio of 103. Write-Read-erase-Read Sequence results demonstrate the switching characteristics of the OBD. The cycling endurance number of the ON/OFF switching for the OBD is above 7×104. The current bistability and carrier transport mechanisms of the OBD fabricated utilizing hybrid Ag nanoparticle-PMMA polymer nanocomposites are described on the basis of the experimental data.
-
current bistability and carrier transport mechanisms of organic bistable devices based on hybrid ag nanoparticle polymethyl methacrylate polymer nanocomposites
Applied Physics Letters, 2010Co-Authors: Wontae Kim, Jae Hun Jung, Tae Whan Kim, Dong Ick SonAbstract:The current bistability and the carrier transport mechanisms of organic bistable devices (OBDs) using Ag nanoparticle-polymethyl methacrylate (PMMA) nanocomposites have been investigated. Current-voltage measurements at 300 K on the Al/Ag nanoparticles embedded in the PMMA layer/indium-tin-oxide devices exhibit a current bistability with an ON/OFF ratio of 103. Write-Read-erase-Read Sequence results demonstrate the switching characteristics of the OBD. The cycling endurance number of the ON/OFF switching for the OBD is above 7×104. The current bistability and carrier transport mechanisms of the OBD fabricated utilizing hybrid Ag nanoparticle-PMMA polymer nanocomposites are described on the basis of the experimental data.
Yasukazu Nakamura - One of the best experts on this subject based on the ideXlab platform.
-
draft sequencing of the heterozygous diploid genome of satsuma citrus unshiu marc using a hybrid assembly approach
Frontiers in Genetics, 2017Co-Authors: Tokurou Shimizu, Terutaka Yoshioka, Yasuhiro Tanizawa, Takako Mochizuki, Hideki Nagasaki, Atsushi Toyoda, Asao Fujiyama, Eli Kaminuma, Yasukazu NakamuraAbstract:Satsuma (Citrus unshiu Marc.) is one of the most produced mandarin varieties of citrus, with importance for seedless fruit production and as a breeding parent of citrus. De novo assembly of the heterozygous diploid genome of Satsuma (‘Miyagawa Wase’) was conducted by a hybrid assembly approach using short-Read Sequences, three mate-pair libraries, and a long-Read Sequence of PacBio by the PLATANUS assembler. The assembled Sequence, with a total size of 359.7 Mb at the N50 length of 386,404 bp, consisted of 20,876 scaffolds. Pseudomolecules of Satsuma constructed by aligning the scaffolds to three genetic maps showed genome-wide synteny to the genomes of Clementine, pummelo and sweet orange. Gene prediction by modeling with MAKER-P proposed 29,024 genes and 37,970 mRNA, and gene prediction analysis found candidates for novel genes in several biosynthesis pathways for gibberellin and violaxanthin catabolism. The BUSCO scores for the assembled scaffold and predicted transcripts and another analysis by BAC end Sequence mapping indicated the assembled genome consistency was close to those of the haploid Clementine, pummelo and sweet orange genomes. The numbers of repeat elements and long terminal repeat retrotransposon were comparable to those of the seven citrus genomes, and it suggested no significant failure in the assembly at the repeat region. A resequencing application using the assembled Sequence confirmed that both kunenbo-A and Satsuma are offspring of Kishu, and Satsuma is a back-crossed offspring of Kishu. These results illustrated the performance of the hybrid assembly approach and its ability to construct an accurate heterozygous diploid genome.
-
Draft Sequencing of the Heterozygous Diploid Genome of Satsuma (Citrus unshiu Marc.) Using a Hybrid Assembly Approach
Frontiers Media S.A., 2017Co-Authors: Tokurou Shimizu, Terutaka Yoshioka, Yasuhiro Tanizawa, Takako Mochizuki, Hideki Nagasaki, Atsushi Toyoda, Asao Fujiyama, Eli Kaminuma, Yasukazu NakamuraAbstract:Satsuma (Citrus unshiu Marc.) is one of the most abundantly produced mandarin varieties of citrus, known for its seedless fruit production and as a breeding parent of citrus. De novo assembly of the heterozygous diploid genome of Satsuma (“Miyagawa Wase”) was conducted by a hybrid assembly approach using short-Read Sequences, three mate-pair libraries, and a long-Read Sequence of PacBio by the PLATANUS assembler. The assembled Sequence, with a total size of 359.7 Mb at the N50 length of 386,404 bp, consisted of 20,876 scaffolds. Pseudomolecules of Satsuma constructed by aligning the scaffolds to three genetic maps showed genome-wide synteny to the genomes of Clementine, pummelo, and sweet orange. Gene prediction by modeling with MAKER-P proposed 29,024 genes and 37,970 mRNA; additionally, gene prediction analysis found candidates for novel genes in several biosynthesis pathways for gibberellin and violaxanthin catabolism. BUSCO scores for the assembled scaffold and predicted transcripts, and another analysis by BAC end Sequence mapping indicated the assembled genome consistency was close to those of the haploid Clementine, pummel, and sweet orange genomes. The number of repeat elements and long terminal repeat retrotransposon were comparable to those of the seven citrus genomes; this suggested no significant failure in the assembly at the repeat region. A resequencing application using the assembled Sequence confirmed that both kunenbo-A and Satsuma are offsprings of Kishu, and Satsuma is a back-crossed offspring of Kishu. These results illustrated the performance of the hybrid assembly approach and its ability to construct an accurate heterozygous diploid genome
