APA
Hahm E., Cha M. G., Kang E. J., Pham X., Lee S. H., Kim H., Kim D., Lee Y., Jeong D. & Jun B. (20181211). Multilayer Ag-Embedded Silica Nanostructure as a Surface-Enhanced Raman Scattering-Based Chemical Sensor with Dual-Function Internal Standards. : ACS applied materials & interfaces.
Chicago
Hahm Eunil, Cha Myeong Geun, Kang Eun Ji, Pham Xuan-Hung, Lee Sang Hun, Kim Hyung-Mo, Kim Dong-Eun, Lee Yoon-Sik, Jeong Dae-Hong and Jun Bong-Hyun. 20181211. Multilayer Ag-Embedded Silica Nanostructure as a Surface-Enhanced Raman Scattering-Based Chemical Sensor with Dual-Function Internal Standards. : ACS applied materials & interfaces.
Harvard
Hahm E., Cha M. G., Kang E. J., Pham X., Lee S. H., Kim H., Kim D., Lee Y., Jeong D. and Jun B. (20181211). Multilayer Ag-Embedded Silica Nanostructure as a Surface-Enhanced Raman Scattering-Based Chemical Sensor with Dual-Function Internal Standards. : ACS applied materials & interfaces.
MLA
Hahm Eunil, Cha Myeong Geun, Kang Eun Ji, Pham Xuan-Hung, Lee Sang Hun, Kim Hyung-Mo, Kim Dong-Eun, Lee Yoon-Sik, Jeong Dae-Hong and Jun Bong-Hyun. Multilayer Ag-Embedded Silica Nanostructure as a Surface-Enhanced Raman Scattering-Based Chemical Sensor with Dual-Function Internal Standards. : ACS applied materials & interfaces. 20181211.