APA
Lee K., Hwang I., Lee S., Oh S., Lee D., Kim C. K., Nam Y., Hong S., Yoon C., Morgan R. B., Kim H., Seo S., Seo D. H., Lee S. & Park B. H. (20160113). Enhancement of resistive switching under confined current path distribution enabled by insertion of atomically thin defective monolayer graphene. : Scientific reports.
Chicago
Lee Keundong, Hwang Inrok, Lee Sangik, Oh Sungtaek, Lee Dukhyun, Kim Cheol Kyeom, Nam Yoonseung, Hong Sahwan, Yoon Chansoo, Morgan Robert B, Kim Hakseong, Seo Sunae, Seo David H, Lee Sangwook and Park Bae Ho. 20160113. Enhancement of resistive switching under confined current path distribution enabled by insertion of atomically thin defective monolayer graphene. : Scientific reports.
Harvard
Lee K., Hwang I., Lee S., Oh S., Lee D., Kim C. K., Nam Y., Hong S., Yoon C., Morgan R. B., Kim H., Seo S., Seo D. H., Lee S. and Park B. H. (20160113). Enhancement of resistive switching under confined current path distribution enabled by insertion of atomically thin defective monolayer graphene. : Scientific reports.
MLA
Lee Keundong, Hwang Inrok, Lee Sangik, Oh Sungtaek, Lee Dukhyun, Kim Cheol Kyeom, Nam Yoonseung, Hong Sahwan, Yoon Chansoo, Morgan Robert B, Kim Hakseong, Seo Sunae, Seo David H, Lee Sangwook and Park Bae Ho. Enhancement of resistive switching under confined current path distribution enabled by insertion of atomically thin defective monolayer graphene. : Scientific reports. 20160113.