Details

Autor(en) / Beteiligte

• Zhang, Linglong
• Zhou, Fei
• Zhang, Xiaowei
• Yang, Shunshun
• Wen, Bo
• Yan, Han
• Yildirim, Tanju
• Song, Xiaoying
• Yang, Qi
• Tian, Ming
• Wan, Neng
• Song, Hucheng
• Pei, Jiajie
• Qin, Shuchao
• Zhu, Jiaqi
• Wageh, S.
• Al‐Hartomy, Omar A.
• Al‐Sehemi, Abdullah G.
• Shen, Haoliang
• Liu, Youwen
• Zhang, Han

Titel

Discovery of Type II Interlayer Trions

Ist Teil von

• Advanced materials (Weinheim), 2023-02, Vol.35 (5), p.e2206212-n/a

Ort / Verlag

Germany: Wiley Subscription Services, Inc

Erscheinungsjahr

2023

Quelle

Alma/SFX Local Collection

Beschreibungen/Notizen

• In terms of interlayer trions, electronic excitations in van der Waals heterostructures (vdWHs) can be classified into Type I (i.e., two identical charges in the same layer) and Type II (i.e., two identical charges in the different layers). Type I interlayer trions are investigated theoretically and experimentally. By contrast, Type II interlayer trions remain elusive in vdWHs, due to inadequate free charges, unsuitable band alignment, reduced Coulomb interactions, poor interface quality, etc. Here, the first observation of Type II interlayer trions is reported by exploring band alignments and choosing an atomically thin organic–inorganic system—monolayer WSe2/bilayer pentacene heterostructure (1L + 2L HS). Both positive and negative Type II interlayer trions are electrically tuned and observed via PL spectroscopy. In particular, Type II interlayer trions exhibit in‐plane anisotropic emission, possibly caused by their unique spatial structure and anisotropic charge interactions, which is highly correlated with the transition dipole moment of pentacene. The results pave the way to develop excitonic devices and all‐optical circuits using atomically thin organic–inorganic bilayers. The first observation of Type II interlayer trions by exploring band alignments and choosing an atomically thin organic–inorganic system‐monolayer WSe2/bilayer pentacene heterostructure is reported. Both positive and negative Type II interlayer trions are electrically tuned. In particular, Type II interlayer trions exhibit in‐plane anisotropic emission, possibly caused by their unique spatial structure and anisotropic charge interactions.