Fig. 1. (Color online) (a) Graphene optical photographs with a thickness of about 3 nm. (b) Atomic force microscope images of monolayer graphene. Reproduced with permission^[9]. Copyright 2004, The American Association for the Advancement of Science. (c) Schematic diagram of the atomic structure of graphene. (d) Schematic diagram of black phosphorus atomic structure. Reproduced with permission^[14]. Copyright 2014, Nature Publishing Group. (e) Schematic diagram of MoS₂ atomic structure. Reproduced with permission^[15]. Copyright 2011, Nature Publishing Group.

Fig. 2. (Color online) Preparation of two-dimensional films by CVD method. (a) CVD preparation diagram. Reproduced with permission^[31]. Copyright 2017, American Chemical Society. (b) 2D Bi₂O₂Se crystal synthesized on mica. Reproduced with permission^[11]. Copyright 2017, Nature Publishing Group. (c–f) Domain size and crystal phase transition of Bi₂O₂Se thin films. Reproduced with permission^[31]. Copyright 2017, American Chemical Society. (g, h) SEM of both transverse Bi₂O₂Se and vertical triangular Bi₂O_xSe. Reproduced with permission^41]. Copyright 2018, Wiley-VCH. (i) Improved preparation method. Reproduced with permission^[32]. Copyright 2019, American Chemical Society. (j, k) Schematic of VS growth mechanism. Reproduced with permission^[20]. Copyright 2019, Wiley-VCH. (l) SEM pictures of Bi₂O₂Se on STO. Reproduced with permission^[19]. Copyright 2019, American Chemical Society. (m) Vertical growth of 2D Bi₂O₂Se films. Reproduced with permission^[43]. Copyright 2019, Wiley-VCH.

Fig. 3. (Color online) (a) Crystal structure of Bi₂O₂Se. Reproduced with permission^[46]. Copyright 2018, Wiley-VCH. (b, c) HRTEM of Bi₂O₂Se. Reproduced with permission^[31]. Copyright 2017, American Chemical Society.

Fig. 4. (Color online) (a–c) ARPES of Bi₂O₂Se films. Reproduced with permission^[11]. Copyright 2017, Nature Publishing Group. (d) Band structure of Bi₂O₂Se films and bulk. Reproduced with permission^[16]. Copyright 2019, Nature Publishing Group.

Fig. 5. (Color online) (a) Raman spectra of Bi₂O₂Se films with different layers. Reproduced with permission^[20]. Copyright 2019, Wiley-VCH. (b–d) Four Raman vibration modes of Bi₂O₂Se. Reproduced with permission^[55]. Copyright 2018, American Chemical Society.

Fig. 6. (Color online) (a, b) Transmittance and band gap of 2D Bi₂O₂Se films and bulk. Reproduced with permission^[31]. Copyright 2017, American Chemical Society. (c) Peak differential reflection (blue symbols) and PL (red curve) of the 13 nm nanoplate as a function of the probe wavelength (upper panel) and its transmittance spectrum (lower panel). Reproduced with permission^[56]. Copyright 2020, Wiley-VCH. (d) Peak differential reflection (blue symbols) and PL (red curve) of the monolayer as a function of the probe wavelength. Reproduced with permission^[56]. Copyright 2020, Wiley-VCH.

Fig. 7. (Color online) (a) TEM image of Bi₂O₂Se on a copper grid. Reproduced with permission^[20]. Copyright 2019, Wiley-VCH. (b) Photograph of 2D Bi₂O₂Se photodetectors and arrays on mica. (c) Optical image of 3  ×  5 multi-pixel array of 2D Bi₂O₂Se photodetectors. (d) Photocurrent of a 2D Bi₂O₂Se photodetector in air. Reproduced with permission^[40]. Copyright 2018, Nature Publishing Group.

Fig. 8. (a) Electrical conductivityσ of the Bi₂O₂Se film as a function of temperature. (b) Thermal conductivityκ of the Bi₂O₂Se rectangular block as a function of temperature. (c) Seebeck coefficientS of the Bi₂O₂Se film as a function of temperature. Reproduced with permission^[59]. Copyright 2013, Elsevier.

Fig. 9. (Color online) Schematic representation of device applications of Bi₂O₂Se.

Fig. 10. (Color online) (a) Output curves of a 6.2 nm-thick Bi₂O₂Se device at room temperature. (b)μ_app andI_on/I_off of Bi₂O₂Se FETs as a function of channel thickness. Reproduced with permission^[11]. Copyright 2017, Nature Publishing Group. (c) OM image of centimeter-scale 2D Bi₂O₂Se arrays. (d) LinearI_ds–V_ds curves of Bi₂O₂Se device with/without the illumination of 532 nm incident laser. Reproduced with permission^[67]. Copyright 2017, Wiley-VCH. (e–g) Photocurrent, dark current, responsivity, detectivity, and response time as a function of temperature. Reproduced with permission^[41]. Copyright 2018, Wiley-VCH.

Fig. 11. (Color online) (a) Schematic illustration of the PbSe/Bi₂O₂Se photodetector. (b) The estimated Type II energy band alignment between PbSe and Bi₂O₂Se before and after contact based on the estimated valence band offset and work function difference in UPS. (c) Photoresponse spectra. (d) Response decay dynamics of the hybrid photodetector. Reproduced with permission^[68]. Copyright 2019, American Chemical Society. (e) Schematic illustration of the Bi₂O₂Se/MoSe₂ heterojunction photodetector. Reproduced with permission^[70]. Copyright 2019, Springer Science Business Media, LLC, part of Springer Nature. (f) OM image of as-fabricated device with 3-layered Bi₂O₂Se IPJ. (g) Output characteristic curve of the device in panel (m). Reproduced with permission^[71]. Copyright 2019, Chinese Physical Society. (h) Preparation of Au/Bi₂O₂Se/Au MSM structures on mica substrates with a probe tip. Reproduced with permission^[72]. Copyright 2019, Royal Society of Chemistry.

Fig. 12. (Color online) (a) Structure of polymer solar cells. (b) Energy diagram of the device. Reproduced with permission^[79]. Copyright 2020, American Chemical Society.

Fig. 13. (Color online) (a) Schematic diagram of the Bi₂O₂Se device structure. (b) Optical image of the Bi₂O₂Se memristor. Reproduced with permission^[25]. Copyright 2018, Wiley-VCH.

Fig. 14. (Color online) Structure diagram of a Bi₂O₂Se optical switch. Reproduced with permission^[46]. Copyright 2018, Wiley-VCH.

Fig. 15. (Color online) (a) TEM image, (b) AFM image, and (c) height analysis of Bi₂O₂Se QDs. Reproduced with permission^[23]. Copyright 2019, Wiley-VCH.