[1] [1] Saeed, M.A., Kim, S.H., Kim, H., Liang, J., Woo, H.Y., Kim, T.G., Yan, H., Shim, J.W.: Indoor organic photovoltaics: optimal cell design principles with synergistic parasitic resistance and optical modulation effect. Adv. Energy Mater. 11(27), 2003103 (2021)

[2] [2] Ma, L.K., Chen, Y.Z., Chow, P.C.Y., Zhang, G.Y., Huang, J.C., Ma, C., Zhang, J.Q., Yin, H., Cheung, A.M.H., Wong, K.S., So, S.K., Yan, H.: High-efficiency indoor organic photovoltaics with a band-aligned interlayer. Joule 4(7), 1607–1611 (2020)

[3] [3] Cui, Y., Yao, H., Zhang, T., Hong, L., Gao, B., Xian, K., Qin, J., Hou, J.: 1 cm2 organic photovoltaic cells for indoor application with over 20% efficiency. Adv. Mater. 31(42), e1904512 (2019)

[4] [4] Ding, Z.C., Zhao, R.Y., Yu, Y.J., Liu, J.: All-polymer indoor photovoltaics with high open-circuit voltage. J. Mater. Chem. A 7(46), 26533–26539 (2019)

[5] [5] Gong, X., Tong, M., Xia, Y., Cai, W., Moon, J.S., Cao, Y., Yu, G., Shieh, C.L., Nilsson, B., Heeger, A.J.: High-detectivity polymer photodetectors with spectral response from 300 nm to 1450 nm. Science 325(5948), 1665–1667 (2009)

[6] [6] Fuentes-Hernandez, C., Chou, W.F., Khan, T.M., Diniz, L., Lukens, J., Larrain, F.A., Rodriguez-Toro, V.A., Kippelen, B.: Large-area low-noise flexible organic photodiodes for detecting faint visible light. Science 370(6517), 698–701 (2020)

[7] [7] Ren, H., Chen, J.D., Li, Y.Q., Tang, J.X.: Recent progress in organic photodetectors and their applications. Adv. Sci. (Weinheim, Baden-Wurttemberg, Germany) 8(1), 2002418 (2021)

[8] [8] Jang, M.S., Yoon, S., Sim, K.M., Cho, J., Chung, D.S.: Spatial confinement of the optical sensitizer to realize a thin film organic photodetector with high detectivity and thermal stability. J. Phys. Chem. Lett. 9(1), 8–12 (2018)

[9] [9] Yang, S.S., Hsieh, Z.C., Keshtov, M.L., Sharma, G.D., Chen, F.C.: Toward high-performance polymer photovoltaic devices for lowpower indoor applications. Solar RRL 1(12), 1700174 (2017)

[10] [10] Lee, B.R., Goo, J.S., Kim, Y.W., You, Y.J., Kim, H., Lee, S.K., Shim, J.W., Kim, T.G.: Highly efficient flexible organic photovoltaics using quasi-amorphous ZnO/Ag/ZnO transparent electrodes for indoor applications. J. Power Sources 417, 61–69 (2019)

[11] [11] Kim, S.M., Saeed, M.A., Kim, S.H., Shim, J.W.: Enhanced hole selecting behavior of WO3 interlayers for efficient indoor organic photovoltaics with high fill-factor. Appl. Surf. Sci. 527, 146840 (2020)

[12] [12] Hwang, D.K., Lee, Y.T., Lee, H.S., Lee, Y.J., Shokouh, S.H., Kyhm, J.H., Lee, J., Kim, H.H., Yoo, T.H., Nam, S.H., Son, D.I., Ju, B.K., Park, M.C., Song, J.D., Choi, W.K., Im, S.: Ultrasensitive PbS quantum-dot-sensitized InGaZnO hybrid photoinverter for near-infrared detection and imaging with high photogain. NPG Asia Materials 8(1), e233 (2016)

[13] [13] Ahn, J., Kang, J.H., Kyhm, J., Choi, H.T., Kim, M., Ahn, D.H., Kim, D.Y., Ahn, I.H., Park, J.B., Park, S., Yi, Y., Song, J.D., Park, M.C., Im, S., Hwang, D.K.: Self-powered visible-invisible multiband detection and imaging achieved using highperformance 2D MoTe2/MoS2 semivertical heterojunction photodiodes. ACS Appl. Mater. Interfaces. 12(9), 10858–10866 (2020)

[14] [14] Dou, L., Yang, Y.M., You, J., Hong, Z., Chang, W.H., Li, G., Yang, Y.: Solution-processed hybrid perovskite photodetectors with high detectivity. Nat. Commun. 5(1), 5404 (2014)