APA
Li W., Wang Z., Yang F., Alam T., Jiang M., Qu X., Kong F., Khan A. S., Liu M., Alwazzan M., Tong Y. & Li C. (20200117). Supercapillary Architecture-Activated Two-Phase Boundary Layer Structures for Highly Stable and Efficient Flow Boiling Heat Transfer. : Advanced materials (Deerfield Beach, Fla.).
Chicago
Li Wenming, Wang Zuankai, Yang Fanghao, Alam Tamanna, Jiang Mengnan, Qu Xiaopeng, Kong Fengyu, Khan Ahmed Shehab, Liu Minjie, Alwazzan Mohammad, Tong Yan and Li Chen. 20200117. Supercapillary Architecture-Activated Two-Phase Boundary Layer Structures for Highly Stable and Efficient Flow Boiling Heat Transfer. : Advanced materials (Deerfield Beach, Fla.).
Harvard
Li W., Wang Z., Yang F., Alam T., Jiang M., Qu X., Kong F., Khan A. S., Liu M., Alwazzan M., Tong Y. and Li C. (20200117). Supercapillary Architecture-Activated Two-Phase Boundary Layer Structures for Highly Stable and Efficient Flow Boiling Heat Transfer. : Advanced materials (Deerfield Beach, Fla.).
MLA
Li Wenming, Wang Zuankai, Yang Fanghao, Alam Tamanna, Jiang Mengnan, Qu Xiaopeng, Kong Fengyu, Khan Ahmed Shehab, Liu Minjie, Alwazzan Mohammad, Tong Yan and Li Chen. Supercapillary Architecture-Activated Two-Phase Boundary Layer Structures for Highly Stable and Efficient Flow Boiling Heat Transfer. : Advanced materials (Deerfield Beach, Fla.). 20200117.