Chiral perovskite; Perovskite chiral metasurface; Chiroptoelectronics; Organic solar cells; Theoretical calculation; Mechanism studies in organic electronics

2024

1. Bai, J.;† Wang, H.;† Zhao, Y.;* Lu, H.; Zhang, Y.; Gull, S.; Qiao, T.; Qin, W.; Chen, Y.; Jiang, L.; Long, G.;* Wu, Y.*; Wafer-Scale Patterning Integration of Chiral 3D Perovskite Single Crystals toward High-Performance Full-Stokes Polarimeter. J. Am. Chem. Soc. 2024, DOI: 10.1021/jacs.4c06822

2. Yang, Z.; Lu, H.; Zhang, Y.; Yin, B.; Wang, H.; Gull, S.; Qin, W.; Chen, Y.; Yao, J.; Zhang, C.;* Long, G.;* A Universal Strategy to Enhance Circularly Polarized Luminescence Brightness in Chiral Perovskites. Laser Photon. Rev. 2024, 18, 202400040

3. Song, T.;† Wang, C.-Q.;† Lu, H.; Mu, X.-J.; Wang, B.-L.; Liu, J.-Z.; Ma, B.; Cao, J.; Sheng, C.-X.; Long, G.;* Wang, Q.;* Zhang, H.-L.;* Achieving Strong Circularly Polarized Luminescence through Cascade Cationic Insertion in Lead-free Hybrid Metal Halides. Angew. Chem. Int. Ed. 2024, 63, e202400769

4. Niu, X.;† Zeng, Z.;† Wang, Z.; Lu, H.; Sun, B.; Zhang, H.-L.; Chen, Y.; Du, Y.;* Long, G.;* The First Chiral Cerium Halide towards Circularly-polarized Luminescence in the UV Region. Sci. China. Chem., 2024, 67, 1961-1968

5. He, T.;† Lin, M.;† Wang, H.; Zhang, Y.; Chen, H.; Sun, C.-L.; Sun, Z.; Wang, X.-Y.; Zhang, H.-L.; Chen, Y.;* Long, G.;* Chiral cylindrical molecule with absorption dissymmetry factor towards theoretical limit of 2. Adv. Theory Simul., 2024, 7, 2300573

6. Lu, H.; He, T.; Wu, H.; Qi, F.; Wang, H.; Sun, B.; Shao, T.; Qiao, T.; Zhang, H.-L.; Sun, D.; Chen, Y.; Tang, Z.; Long, G.;* Chiral Magnetic Ruthenium Halide with Strong Antiferromagnetic Coupling. Adv. Funct. Mater. 2024, 34, 2308862

7. Wang, H.;† Yu, Y.;† Lu, H.; Wang, T.; Haruta, Y.; Wei, X.; Xing, G.; Saidaminov, M. I.; Zhou, Y.;* Long, G.;* Three-dimensional lead iodide perovskites based on complex ions. Mater. Adv. 2024, 5, 123

8. Luo, Z.; Wu, C.; Yan, M.; Yu, X.;* Yu, X.-M.;* Qian, Q.; Zhou, Y.; Zhang, H.; Li, Z.; Long, G.;* Enhancing detectivity of organic photodetectors through the biomass carbon quantum dots from sugarcane bagasse, Mater. Chem. Phys. 2024, 316, 129056

9. Li, Y.;†  Lu, H.;†  Yun, R.;  Yang, H.;  Liu, Y.;  Wang, Z.;  Wang, S.;*  G. Long,  X. Li,  Tuning Electron-Phonon Coupling Interaction for the Efficient Wide Blue Emission of Pb²⁺-Doped Cs₂InCl₅·H₂O. Adv. Optical Mater.  2024, 12, 2400184

10. Gu, X.;† Zeng, R.;† He, T.; Zhou, G.; Li, C.; Yu, N.; Han, F.; Hou, Y.; Lv, J.; Zhang, M.; Zhang, J.; Wei, Z.; Tang, Z.; Zhu, H.; Cai, Y.; Long, G.; Liu, F.;* Zhang, X.;* Huang, H.;* Simple-Structured Acceptor with Highly Interconnected Electron-Transport Pathway Enables High-Efficiency Organic Solar Cells. Adv. Mater. 2024, 36, 2401370

11. Han, Z.;† Zhang, C.;† He, T.;† Gao, J.; Hou, Y.; Gu, X.; Lv, J.; Yu, N.; Qiao, J.; Wang, S.; Li, C.; Zhang, J.; Wei, Z.; Peng, Q.; Tang, Z.; Hao, X.; Long, G.; Cai, Y.; Zhang, X.; Huang, H.; Precisely Manipulating Molecular Packing via Tuning Alkyl Side-Chain Topology Enabling High-Performance Nonfused-Ring Electron Acceptors. Angew. Chem. Int. Ed. 2024, 63, e202318143

12. Gu, X.;† Zeng, R.;† Hou, Y,; Yu, N.; Qiao, J.; Li, H.; Wei, Y.; He, T.; Zhu, J.; Deng, J.; Tan, S.; Zhang, C.; Cai, Y.; Long, G.; Hao, X.; Tang, Z.; Liu, F.;* Zhang, X.;* Huang, H.;* Precisely Regulating Intermolecular Interactions and Molecular Packing of Nonfused-Ring Electron Acceptors via Halogen Transposition for High-Performance Organic Solar Cells. Angew. Chem. Int. Ed. 2024, 63, e202407355

13. Bai, Y.; Chen, T.; Ji, X.;* Wang, J.; Zhao, W.; Yuan, S.; Zhang, Y.; Long, G.; Zhang, Z.; Wan, X.; Kan, B.;* Chen, Y.; Multi-Selenophene Strategy Enables Dimeric Acceptors-Based Organic Solar Cells with over 18.5% Efficiency. Adv. Energy Mater. 2024, 14, 2400938

14. Ma, K.;† Liang, H.;† Wang, Y.; He, T.; Duan, T.; Si, X.; Shi, W.; Long, G.; Cao, X.; Yao, Z.;* Wan, X.; Li, C.; Kan, B.; Chen, Y.;* A case study of comparing two dimerized acceptor molecules built by different branch-connected and terminal-connected approaches. Sci. China Chem. 2024, 67, 1687-1696

15. Bi, X.; Cao, X.; He, T.; Liang, H.; Yao, Z.;* Yang, J.; Guo, Y.;* Long, G.; Kan, B.; Li, C.; Wan, X.; Chen, Y.;* What is the Limit Size of 2D Conjugated Extension on Central Units of Small Molecular Acceptors in Organic Solar Cells? Small 2024, 20, 2401054

16. Li, C.; Yu, A.; Chen, X.; He, T.; Mei, S.; Long, G.; Yao, C.; Dual-active centers of porous triazine frameworks for efficient Li storage. Chem. Eng. J., 2024, 489, 151103

17. Yang, H.;† Chen, X.;† Lu, H.;†Sun, W.; Li, Y.; Zhang, Y.; Liang, Y.; Long, G.; Zhang, L.; Li, X.;* Simultaneous modification of emission spectrum and trap distribution for achieving self-trapped excitons-based white afterglow. Chem. Eng. J., 2024, 489, 152042

18. Liu, J.; He, T.; Gong, Z.; Liang, N.; Feng, Y.;* Long, G.; Zhong, Y.; Yao, C.;* Rational Design of Circularly Polarized Luminescent Molecular Structures Toward NIR and Single Molecule White Light Emission. Adv. Optical Mater. 2024, 12, 2302486

19. Chang, C.; Lu, H.; Liu, Y.; Long, G.; Guo, X.;* Ji, X.;* Jin, Z.;* Novel CoV-LDH/GDY/CuI tandem double S-scheme heterojunction based on graphdiyne (g-C_nH_2n−2) toward photocatalytic hydrogen evolution. J. Mater. Chem. A 2024, 12, 4204

2023

1. Wang, H.;† Li, J.;† Lu, H.; Gull, S.; Shao, T.; Zhang, Y.; He, T.-F.; Chen, Y.; He, T ;* Long, G.;* Chiral Hybrid Germanium(II) Halide with Strong Nonlinear Chiroptical Properties. Angew. Chem. Int. Ed. 2023, 62, e202309600

2. Zhang, Y.;† Chen, M.;† He, T.; Chen, H.; Zhang, Z.; Wang, H.; Lu, H.; Ling, Q.; Hu, Z.; Liu, Y.;* Chen, Y.;* Long, G.;* Highly Efficient and Stable FA-Based Quasi-2D Ruddlesden-Popper Perovskite Solar Cells by the Incorporation of β-Fluorophenylethanamine Cations. Adv. Mater. 2023, 35, 2210836

3. Liu, X.; Lu, H.; Zhu, S.; Cui, Z.; Li, Z.; Wu, S.; Xu, W.; Liang, Y.;* Long, G.;* Jiang H.;* Alloying-Triggered Phase Engineering of NiFe System via Laser-Assisted Al Incorporation for Full Water Splitting. Angew. Chem. Int. Ed. 2023, 62, e202300800

4. Fan, Z.;† Lu, H.;† Liu, Y.; Chang, C.; Guo, X.;* Long, G.;* Jin, Z.;* Distinctive graphdiyne coupled with phosphorylation NiFe-LDH S-scheme heterojunction for photocatalytic overall water splitting. Chem. Eng. J., 2023, 477, 147008

5. Ma, S.;† Sun, H.;† Chen, J.; Yu, Y.; Lu, H.; Wang, S.; Zhang, J.;* Zhao, J.;* Long, G.;* Wang, X.;* Stoichiometric and Chiral Stacking Tailoring of Dibenzocarbazole Analog-TCNB Charge-Transfer Cocrystals via Supramolecular Assembly for Variable Optical Behaviors. Adv. Opt. Mater. 2023, 11, 2203087

6. Chen, X.-H.; Lu, H., Wu, Z.; Wang, H.; Zhang, S.; Mei, S.;* Long, G.;* Zhang, Q.;* Yao C.* Structure regulation induced high capacity and ultra-stable cycling of conjugated organic cathodes for Li-ion batteries. J. Mater. Chem. A 2023, 11, 77-83

7. Chen, G., Li, Z., Huang, Z., Lu, H., Long, G., Pacheco, J. S. L. S., Tok, J. B. H., Gao, T. Z., Lei, Y., Zhou, J., Bao, Z., Effects of Transition Metals on Metal-Octaaminophthalocyanine-Based 2D Metal-Organic Frameworks. ACS Nano 2023, 17, 9611-9621

8. Li, J.*, Guo, Z., Li, P., Liu, J., Zhai, X., Chang, Z., Chang, W., Long, G., Niu, B.*, Guo, Y.*, Magnetic Fano resonance enhanced second-harmonic generation in chiral hybrid bismuth halides. Appl. Phys. Lett. 2023, 122, 091701

9. Yang, H.; Chen, X.; Chu, Y.; Sun, C.; Lu, H.; Yuan, M.; Zhang, Y.; Long, G.; Zhang, L.; Li, X.* A universal hydrochloric acid-assistant powder-to-powder strategy for quick and mass preparation of lead-free perovskite microcrystals. Light Sci. Appl. 2023, 12, 75

10. Yang, H.; Chen, X.; Lu, H.; Li, Y.; Sun, W.; Zhang, Y.;* Liu, X.; Long, G.; Zhang, L.;* Li, X.;* Self-Trapped Excitons-Based Warm-White Afterglow by Room-Temperature Engineering toward Intelligent Multi-Channel Information System. Adv. Funct. Mater. 2023, 33, 2311437

11. Liang, H., Bi, X., Chen, H., He, T., Lin, Y., Zhang, Y., Ma, K., Feng, W., Ma, Z., Long, G., Li, C., Kan, B., Zhang, H., Rakitin, O., Wan, X., Yao, Z.*, Chen, Y. *, A rare case of brominated small molecule acceptors for high-efficiency organic solar cells. Nat. Commun. 2023, 14, 4707

12. Chen, H., Zhang, Z., Wang, P., Zhang, Y., Ma, K., Lin, Y., Duan, T., He, T., Ma, Z., Long, G., Li, C., Kan, B.*, Yao, Z.*, Wan, X., Chen, Y.*, 3D acceptors with multiple A-D-A architectures for highly efficient organic solar cells. Energy Environ. Sci. 2023, 16, 1773-1782

13. Xu, Z.; Li, S.; Huang, F.; He, T.; Jia, X.; Liang, H.; Guo, Y.; Long, G.; Kan, B.; Yao, Z.;* Li, C.; Wan, X.; Chen, Y.;* Propeller vs Quasi-Planar 6-Cantilever Small Molecular Platforms with Extremely Two-Dimensional Conjugated Extension.Angew. Chem. Int. Ed. 2023, 62, e202311686

14. Yao, Z.;* Cao, X.; Bi, X.; He, T.; Li, Y.; Jia, X.; Liang, H.; Guo, Y.; Long, G.; Kan, B.; Li, C.; Wan, X.; Chen, Y.;* Complete Peripheral Fluorination of the Small-Molecule Acceptor in Organic Solar Cells Yields Efficiency over 19%. Angew. Chem. Int. Ed. 2023, 62, e202312630

15. Liang, H., Chen, H., Wang, P., Zhu, Y., Zhang, Y., Feng, W., Ma, K., Lin, Y., Ma, Z., Long, G., Li, C., Kan, B., Yao, Z.*, Zhang, H., Wan, X., Chen, Y.*, Molecular Packing and Dielectric Property Optimization through Peripheral Halogen Swapping Enables Binary Organic Solar Cells with an Efficiency of 18.77%. Adv. Funct. Mater. 2023, 33, 2301573

16. Feng, W., Ma, K., Song, G., Shao, T., Liang, H., Lu, S., Chen, Y., Long, G., Li, C., Wan, X., Yao, Z., Kan, B.*, Chen, Y.*, P-doped all-small-molecule organic solar cells with power conversion efficiency of 17.73%. Sci. China Chem. 2023, 66, 2371-2379

17. Chen, H.;†Cao, X.;†Wang, P.; Huang, F.; Zhang, Y.; Liang, H.; Bi, X.; He, T.; Feng, W.; Guo, Y.; Ma, Z.; Long, G.; Yao, Z.;* Kan, B.; Li, C.; Wan, X.; Chen, Y.;* A rare case of iodinated non-fullerene acceptors for high-performance organic solar cells without post-treatments. J. Mater. Chem. A, 2023, 11, 25368-25376

18. Guo, J.;†Ji, X.;†Cao, X.; He, T.; Liang, H.; Shi, W.; Xu, Z.; Wang, R.; Guo, Y.;* Yao, Z.;* Wan, X.; Long, G.; Li, C.; Chen, Y.;* A narrow-bandgap non-fullerene acceptor constructed with an S,N-heteroacene up to a dodecamer in size. J. Mater. Chem. C, 2023, 11, 12900

2022

1. Long, G.;† Adamo, G.;† Tian, J.; Klein, M.; Krishnamoorthy, Harish N. S.; Feltri, E.; Wang, H.; Soci, C.;* Perovskite metasurfaces with large superstructural chirality. Nat. Commun., 2022, 13, 1551

2. Chen, H.;† Zou, Y.;† Liang, H.; He, T.; Xu, X.; Zhang, Y.; Ma, Z.; Wang, J.; Zhang, M.; Li, Q.; Li, C.; Long, G.;* Wan, X.; Yao, Z.;* Chen, Y.;* Lowing the energy loss of organic solar cells by molecular packing engineering via multiple molecular conjugation extension. Sci. China Chem., 2022, 65, 1362-1373

3. Huang, F.; He, T.; Li, M.; Meng, L.; Feng, W.; Liang, H.; Zhou,Y.; Wan, X.; Li, C.; Long, G.;* Yao, Z.;* Chen, Y.;* Can Isotope Effect Enable Organic Solar Cells to Achieve Smaller Non-Radiative Energy Losses and Why? Chem. Mater., 2022, 34, 6009-6025

4. Yang, B.; Wang, Z.; He, T.; Chen, J.; Mu, Z.; Ju, Z.; Lin, M.; Long, G.;* Zhang, J.;* Meng, H.;* Huang, W.; Chlorine substituted N-heteroacene analogues acting as organic semiconductors for solution-processed n-type organic field-effect transistors. Chem. Eur. J. 2022, e202201176

5. Liu, J.; Luo, C.; Lu, H.; Huang, Z.;* Long, G.;* Peng, X.;* Influence of hexagonal boron nitride on electronic structure of graphene. Molecules, 2022, 27, 3740

6. Zhai, X.; Wang, H.; Alekseevich, A.; Adamo, G.; Tian, J.; Gorkunov, M. V.; Soci, C.; Long, G.;* Proceedings Volume PC12322, Nanophotonics, Micro/Nano Optics, and Plasmonics VIII, 2022, https://doi.org/10.1117/12.2651357

7. Ma, S.; Li, G.;* Li, Z.; Zhang, Y.; Lu, H.; Gao, Z.; Wu, J.; Long, G.; Huang Y.* 2D Magnetic Semiconductor Fe₃GeTe₂ with Few and Single Layers with a Greatly Enhanced Intrinsic Exchange Bias by Liquid-Phase Exfoliation. ACS Nano 2022, 16, 19439

8. Liu, J.;†Feng, Y.;†Yin, H.; He, T.;* Wang, K.; Long, G.; Yao, C.;* Strategy for Modulating Dihedral Angle Distribution for Enhanced Anti-Kasha TADF Behavior. J. Phys. Chem. C 2023, 127, 5567-5575

9. Wang, L.; He, T.; Liao, H.; Luo, Y.; Ou, W.; Yu, Y.; Yue, W.; Long, G.; Wei, X.; Zhou, Y.;* A theoretical design of chiral molecules through conformational lock towards circularly polarized luminescence. Photonics 2022, 9, 532

2021 and before

1. Yang, C.; Luo, L.; Chen, J.; Yang, B.; Wang, W.; Wang, H.; Long, G.; Liu, G. ; Zhang, J.;* Huang, W.* Helical Mesoscopic Crystals Based on Achiral Charge-Transfer Complex with Controllable Untwisting/Breaking. Chem. Commun., 2021, 57, 10031

2. Long, G.;† Adamo, G.;*† Tian, J.; Feltri, E.; Krishnamoorthy, Harish N. S.; Klein, M.; Soci, C.; All-dielectric Halide Perovskite Metasurfaces with Giant Chirality. OSA Technical Digest, 2021, DOI: 10.1364/CLEO_SI.2021.STu1C.2

3. Long, G.;† Sabatini, R.;† Saidaminov, M. I.;† Lakhwani, G.; Rasmita, A.; Liu, X.; Sargent, E. H.;* Gao, W.;* Chiral-perovskite optoelectronics. Nat. Rev. Mater. 2020, 5, 423

4. Long, G.;† Jiang, C.;† Sabatini, R.;† Yang, Z.;Wei, M.; Quan, L.; Liang, Q.;  Rasmita, A.; Askerka, M.; Walters, G.; Gong, X.; Xing, J.; Wen, X.; Quintero-Bermudez, R.; Yuan, H.; Xing, G.; Wang, X.; Song, D.; Voznyy, O.; Zhang, M.; Hoogland, S.; Gao, W.;* Xiong, Q.;* Sargent, E. H.;* Spin control in reduced-dimensional chiral perovskites. Nat. Photon., 2018, 12, 528-533.

5. Long, G.;*† Zhou, Y.;† Zhang, M.;†Sabatini, R.; Rasmita, A; Huang, L.; Lakhwani, G.; Gao, W.;* Theoretical prediction of chiral three-dimensional hybrid organic-inorganic perovskites. Adv. Mater., 2019, 31, 1807628.

6. Long, G.;† Wu, B.;† Ankur, S.; Yang, X.; Kan, B.; Liu, X.; Wan, X.; Li, M.; Sum, T.-C.;* Chen, Y.;* New insights into the correlation between morphology, excited state dynamics and device performance of small molecule organic solar cells. Adv. Energy Mater., 2016, 6, 1600961.

7. Long, G.; Wan, X.;* Kan, B.; Liu, Y.; He, G.; Li, Z.; Zhang, Y.-W.; Zhang, Y.; Zhang, Q.; Zhang, M.; Chen, Y.;* Investigation of quinquethiophene derivatives with different end groups for high open circuit voltage solar cells. Adv. Energy Mater., 2013, 3, 639-646.

8. Long, G.;† Li, A.;† Shi, R.; Zhou, Y.; Yang X.; Zuo, Y.; Wu, W.-R.; Jeng, U-S.; Wang, Y.; Wan, X.; Shen, P.; Zhang, H.; Yan, T.;* Chen, Y.;* The evidence for fullerene aggregation in high-performance small-molecule solar cells by molecular dynamics simulation. Adv. Electron. Mater.,2015, 1, 1500217.

9. Long, G.; Wan, X.;* Kan, B.; Hu, Z.; Yang, X.; Zhang, Y.; Zhang, M.; Wu, H.; Huang, F.; Su, S.; Cao, Y.; Chen, Y.;* Electron transport layer impact on the performance of solution processed small molecule organic solar cells. ChemSusChem., 2014, 7, 2358-2364.

10. Long, G.;† Wu, B.;† Yang, X.; Kan, B.; Zhou, Y.; Wan, X.; Chen, L.; Zhang, H.; Sum, T.-C.;* Chen, Y.;* The enhancement of performance and mechanism studies of all-solution processed small-molecule based solar cells with an inverted structure. ACS Appl. Mater. Interf., 2015, 7, 21245-21253.

11. Long, G.;† Zhou, Y.;† Jin, M.; Kan, B.; Zhang, Y.; Angus, G.-W.;* Jiang, D.-E.;* Chen, Y.;* Zhang, Q.;* Theoretical investigation on two-dimensional non-traditional carbon materials with three-membered ring and four-membered ring as building blocks. Carbon. 2015, 95, 1033-1038.

12. Long, G.; Yang, X.; Chen, W.; Zhang, M.;* Zhao, Y.;* Chen, Y.;* Zhang, Q.;* “Doping” pentacene with sp² phosphorus atoms: towards high performance ambipolar semiconductors.Phys. Chem. Chem. Phys., 2016, 18, 3173-3178.

13. Long, G.;† Shi, R.;† Zhou, Y.; Li, A.; Kan, B.; Wu, W.-R.; Jeng, U-S.; Xu, T.; Yan, T.; Zhang, M.; Yang, X.; Ke, X.; Sun, L.; Angus, G.-W.; Wan, X.; Zhang, H.; Li, C.; Wang, Y.;* Chen, Y.;* Molecular origin of donor- and acceptor-rich domain formation in bulk-heterojunction solar cells with an enhanced charge transport efficiency. J. Phys. Chem. C, 2017, 121, 5864-5870.

14. Jin, J.;† Long, G.;† Gao, Y.; Zhang, J.;* Ou, C.; Zhu, C.; Xu, H; Zhang, J;* Zhang, M.; Huang, W.;* Supramolecular Design of Donor-Acceptor Complexes via Heteroatom Replacement toward Structure and Electrical Transporting Property Tailoring. ACS Appl. Mater. Interf., 2019, 11, 1109-1116.

15. Hu, P.;† Long, G.;† Chaturvedi, A.;† Wang, S.; Tan, K. J.; He, Y.; Zheng, L.; Liu, G.; Ke, Y.; Zhou, Y.; Jiang, H.;* Liu, Z.; Zhang, M.; Long, Y.;* Agent-assisted VSSe ternary alloy single crystals towards efficient stable electrocatalyst for hydrogen evolution reaction. J. Mater. Chem. A, 2019, 7, 15714 - 15721.

16. Zhou, Y.;*† Long, G.;† Li, A.; Angus, G.-W.; Yan, T.; Chen, Y.; Towards predicting power conversion efficiencies of organic solar cells from donor and acceptor molecule structures. J. Mater. Chem. C, 2018, 6, 3276-3287.

17. Wan, X.; Long, G.; Huang, L.; Chen, Y.;* Graphene-a promising material for organic photovoltaic cells. Adv. Mater., 2011,23, 5342-5358. (Progress Report)

18.  Chen, Y.;* Wan, X.; Long, G. High performance photovoltaic applications using solution-processed small molecules. Acc. Chem. Res., 2013, 46, 2645-2655. (Review)

19.  Chen, W;† Li, X.;† Long, G.; Li, Y.; Ganguly, R.; Zhang, M.; Aratani, N.; Yamada, H.; Liu, M.;* Zhang, Q.:* Pyrene-containing twistarene: twelve benzene rings fused in a row. Angew. Chem. Int. Ed., 2018, 57, 13555-13559.

20. Wu, J.;† Rui, X.;† Long, G.; Chen, W.; Yan, Q.* and Zhang, Q.;* Pushing up lithium storage through nanostructured polyazaacene analogues as anode. Angew. Chem. Int. Ed., 2015, 54, 7354-7358.

21. Wang, C.;† Zhang, J.;† Long, G.; Aratani, N.; Yamada, H.; Zhao, Y.; Zhang, Q.;* Synthesis, structure, and air-stable N-type field-effect transistor behaviors of functionalized octaazanonacene-8,19-dione. Angew. Chem. Int. Ed., 2015, 54, 6292-6296.

22. Zhang, J.;† Wang, C.;† Long, G.; Aratani, N.; Yamada, H.; Zhang, Q.;* Fusing n-heteroacene analogues into one “kinked” molecule with slipped two-dimensional ladder-like packing. Chem. Sci., 2016, 7, 1309-1313.

23. Zhang, J.;† Gu, P.;† Long, G.; Ganguly, R.; Li, Y.; Aratani, N.; Yamada, H.; Zhang, Q.;* Switching charge-transfer characteristic from p-type to n-type through molecule “doping” (co-crystallization). Chem. Sci., 2016, 7, 3851-3856

24. Zhang, Q.;† Kan, B.;† Liu, F.;† Long, G.; Wan, X.; Chen, X.; Zuo, Y.; Ni, W.; Zhang, H.; Li, M.; Hu, Z.; Huang, F.; Cao, Y.; Liang, Z.; Zhang, M.; Russell, T.; Chen, Y.;* Small-molecule solar cells with efficiency over 9%. Nat. Photon., 2015, 9, 35-41