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New article by Dr. Matthew Pelton in Nature Communications

August 1, 2017 10:59 AM
“A room temperature continuous-wave nano-laser using colloidal quantum wells.”

Zhili Yang, Matthew Pelton, Igor Fedin, Dmitri V. Talapin, and Edo Waks

Nature Communications, Vol. 8, Page 143 (2017)


Abstract: Colloidal semiconductor nanocrystals have emerged as promising active materials for solution-processable opto-electronic and light-emitting devices. In particular, the development of nanocrystal lasers is currently experiencing rapid progress. However, these lasers require large pump powers, and realizing an efficient low-power nanocrystal laser has remained a difficult challenge. Here we demonstrate a nanolaser using colloidal nanocrystals that exhibits a threshold input power of less than 1 mW, the lowest reported threshold for any laser using colloidal emitters. We use CdSe/CdS core-shell nanoplatelets, which are efficient nanocrystal emitters with the electronic structure of quantum wells, coupled to a photonic-crystal nanobeam cavity that attains high coupling efficiencies. The device achieves stable continuous-wave lasing at room temperature, which is essential for many photonic and opto-electronic applications. Our results show that colloidal nanocrystals are suitable for compact and efficient opto-electronic devices based on versatile and inexpensive solution-processable materials.