2024
1. Du, J.; Zhao, Y.; Chu, X.; Wang, G.; Neumann, C.; Xu, H.; Li, X.; Löffler, M.; Lu, Q.; Zhang, J.; Li, D.; Zou, J.; Mikhailova, D.; Turchanin, A.; Feng, X.; Yu, M., A High-Energy Tellurium Redox-Amphoteric Conversion Cathode Chemistry for Aqueous Zinc Batteries. Adv. Mater. 2024, 36, 2313621.
2023
1. Wang, M. C.#; Wang, G.#*; Naisa, C.#; Fu, Y. B.; Gali, S. M.; Paasch, S.; Wang, M.; Wittkaemper, H.; Papp, C.; Brunner, E.; Zhou, S. Q.; Beljonne, D.; Steinrück, H. P.; Dong, R. H.*; Feng, X. L.*, Poly(benzimidazobenzophenanthroline)-Ladder-Type Two-Dimensional Conjugated Covalent Organic Framework for Fast Proton Storage. Angew. Chem. Int. Ed. 2023, 62, e202310937.
2. Liu, Y.; Lu, Y.; Khan, A. H.; Wang, G.; Wang, Y.; Morag, A.; Wang, Z.; Chen, G.; Huang, S.; Chandrasekhar, N.; Sabaghi, D.; Li, D.; Zhang, P.; Ma, D.; Brunner, E.; Yu, M.; Feng, X., Redox-Bipolar Polyimide Two-Dimensional Covalent Organic Framework Cathodes for Durable Aluminium Batteries. Angew. Chem. Int. Ed. 2023. (n/a), e202306091.
3. Zhang, P.; Wang, M.; Liu, Y.; Fu, Y.; Gao, M.; Wang, G.; Wang, F.; Wang, Z.; Chen, G.; Yang, S.; Liu, Y.; Dong, R.; Yu, M.; Lu, X.; Feng, X., Largely Pseudocapacitive Two-Dimensional Conjugated Metal–Organic Framework Anodes with Lowest Unoccupied Molecular Orbital Localized in Nickel-bis(dithiolene) Linkages. J. Am. Chem. Soc. 2023.145 (11), 6247-6256.
4. Sabaghi, D.; Wang, G.; Mikhailova, D.; Morag, A.; Omar, A.; Li, D.; Khosravi Haji Vand, S.; Yu, M.; Feng, X.; Shaygan Nia, A., High energy density and durable pouch-cell graphite-based dual ion battery using concentrated hybrid electrolytes. J. Power Sources 2023, 588, 233685.
2022
1. Wang, G.; Zhu, M.; Chen, G.; Qu, Z.; Kohn, B.; Scheler, U.; Chu, X.; Fu, Y.; Schmidt, O. G.; Feng, X., An anode-free Zn-graphite battery. Adv. Mater. 2022, 34, 2201957.
2. Wang, G.; Dmitrieva, E.; Kohn, B.; Scheler, U.; Liu, Y.; Tkachova, V.; Yang, L.; Fu, Y.; Ma, J.; Zhang, P.; Wang, F.; Ge, J.; Feng, X., An Efficient Rechargeable Aluminium–Amine Battery Working Under Quaternization Chemistry. Angew. Chem. Int. Ed. 2022, 61, e202116194.
3. Wang, M.#; Wang, G.#; Chandrasekhar, N.#; Fu, Y.; Gali, S. M.; Paasch, S.; Wang, M.; Wittkaemper, H.; Richter, M.; Papp, C.; Brunner, E.; Zhou, S.; Steinrück, H.-P.; Beljonne, D.; Dong, R.; Feng, X.; Perinone-Based Ladder-Type Two-Dimensional Conjugated Covalent Organic Framework for Fast Proton Storage. ChemRxiv, 2022.
4. Wang, F.; Zhang, P.; Wang, G.; Nia, A. S.; Yu, M.; Feng, X.; Functional electrolytes: game changers for smart electrochemical energy storage devices. Small Science 2022. 2, 2100080.
2021
1. Wang, G.; Yu, M.; Feng, X., Carbon Materials for Ion-Intercalation Involved Rechargeable Battery Technologies. Chem. Soc. Rev. 2021, 50, 2388. Highly cited paper
2. Wang, G.; Chen, G.; Yang, S.; Zhang, P.; Wang, F.; Shaygan Nia, A.; Yu, M.; Feng, X., Facile assembly of layer-interlocked graphene heterostructures as flexible electrodes for Li-ion batteries. Faraday Discuss. 2021, 227, 321.
3. Chen, P.; Richter, J.; Wang, G.; Li, D.; Pietsch, T.; Ruck, M., Ionometallurgical step-electrodeposition of zinc and lead and its application in a cyclingstable high-voltage zinc-graphite battery. Small. 2021, e2102058.. DOI: 10.1002/smll.202102058.
4. Chugh, M.; Jain, M.; Wang, G.; Nia, A.; Mirhosseini, H.; Kuhne, T., A combinatorial study of electrochemical anion intercalation into graphite. Mater. Res. Express 2021, 8, 085502.
5. Zhang, P.; Wang, M.; Liu, Y.; Yang, S.; Wang, F.; Li, Y.; Chen, G.; Li, Z.; Wang, G.; Zhu, M.; Dong, R.; Yu, M.; Schmidt, O.; Feng, X., Dual-Redox-Sites Enable Two-Dimensional Conjugated Metal-Or-ganic Frameworks with Large Pseudocapacitance and Wide Potential Window. J. Am. Chem. Soc. 2021, 143, 27, 10168–10176.
6. He, Y.; Yang, S.; Fu, Y.; Wang, F.; Ma, J.; Wang, G.; Chen, G.; Wang, M.; Dong, R.; Zhang P.; Feng, X.; Electronic Doping of Metal‐Organic Frameworks for High‐Performance Flexible Micro‐Supercapacitors." Small Structures. 2021, 2, 2000095.
2020
1. Wang, G.; Kohn, B.; Scheler, U.; Wang, F.; Oswald, S.; Löffler, M.; Tan, D.; Zhang, P.; Zhang, J.; Feng, X., A High-Voltage, Dendrite-Free, and Durable Zn–Graphite Battery. Adv. Mater. 2020, 32, 1905681. Featured by ChemistryViews, “LiPF6 Prevents Dendrites in Zinc-Graphite battery”, 04.01.2020
2. Wang, Z.#; Wang, G.#; Qi, H.; Wang, M.; Wang, M.; Park, S.; wang, H.; Yu, M.; Kaiser, U.; Fery, A.; Zhou, S.; Dong, R.; Feng, X., Ultrathin Two-Dimensional Conjugated Metal-Organic Framework Single-Crystalline Nanosheets Enabled by Surfactant-Assisted Synthesis. Chem. Sci. 2020. 11, 7665. (Co-first author)
3. Yu, M.; Shao, H.; Wang, G.; Yang, F.; Liang, C.; Rozier, P.; Wang, C.-Z.; Lu, X.; Simon, P.; Feng, X., Interlayer gap widened α-phase molybdenum trioxide as high-rate anodes for dual-ion-intercalation energy storage devices. Nat. Commun. 2020, 11 (1), 1348.
4. Chen, G.; Wang, T.; Liu, P.; Liao, Z.; Zhong, H.; Wang, G.; Zhang, P.; Yu, M.; Zschech, E.; Chen, M.; Zhang, J.; Feng, X., Promoted Oxygen Reduction Kinetics on Nitrogen-doped Hierarchically Porous Carbon by Engineering Proton-feeding Centers. Energy Environ. Sci. 2020. 13, 2849.
5. Tan, D.; Chen, P.; Wang, G.; Chen, G.; Pietsch, T.; Brunner, E.; Doert, T.; Ruck, M., One-pot resource-efficient synthesis of SnSb powders for composite anodes in sodium-ion batteries. RSC Adv. 2020, 10 (37), 22250-22256.
6. Zhang, P.; Wang, F.; Yang, S.; Wang, G.; Yu, M.; Feng, X., Flexible in-plane micro-supercapacitors: progresses and challenges in fabrication and applications. Energy Storage Materials 2020, 28, 160.
7. Wang, F.; Tseng, J.; Liu, Z.; Zhang, P.; Wang, G.; Chen, G.; Wu, W.; Yu, M.; Wu, Y.; Feng, X., A Stimulus-Responsive Zinc–Iodine Battery with Smart Overcharge Self-Protection Function. Adv. Mater. 2020, 32, 2000287.
8. Ge, J.; Zhu, H.-W.; Yang, Y.; Xie, Y.; Wang, G.; Huang, J.; Shi, L.-A.; Schmidt, O. G.; Yu, S.-H., A General and Programmable Synthesis of Graphene-Based Composite Aerogels by a Melamine-Sponge-Templated Hydrothermal Process. CCS Chemistry, 2020, 2, 1.
2019
1. Wang, G.#; Chandrasekhar, N.#; Biswal, B. P.; Becker, D.; Paasch, S.; Brunner, E.; Addicoat, M.; Yu, M,; Berger, R.; Feng, X., A Crystalline, 2D Polyarylimide Cathode for Ultrastable and Ultrafast Li Storage. Adv. Mater., 2019, 31, 1901478.
2. Wang, G.; Oswald, S.; Löffler, M.; Müllen, K.; Feng, X., Beyond Activated Carbon: Graphite-Cathode-Derived Li-Ion Pseudocapacitors with High Energy and High Power Densities. Adv. Mater. 2019, 31, 1807712.
3. Xu, S.#; Wang, G.#; Biswal, B. P.; Addicoat, M.; Paasch, S.; Sheng, W.; Zhuang, X.; Brunner, E.; Heine, T.; Berger, R.; Feng, X., A Nitrogen-Rich 2D sp² Carbon-Linked Conjugated Polymer Framework as a High-Performance Cathode for Lithium-ion Batteries. Angew. Chem. Int. Ed. 2019, 58, 849-853. Highly cited paper
4. Zhang, P.; Li, Y.; Wang, G.; Wang, F.; Yang, S.; Zhu, F.; Zhuang, X.; Schmidt, O. G.; Feng, X., Zn-Ion Hybrid Micro-Supercapacitors with Ultrahigh Areal Energy Density and Long-Term Durability. Adv. Mater. 2019, 31, 1806005. Highly cited paper
5. Zhang, P.; Wang, L.; Wang, F.; Tan, D.; Wang, G.; Yang, S.; Yu, M.; Zhang, J.; Feng, X.; A Nonaqueous Na‐Ion Hybrid Micro‐Supercapacitor with Wide Potential Window and Ultrahigh Areal Energy Density. Batteries & Supercaps 2019, 2, 918-923.
6. Qin, C.; Hou, B.; Wang, J.; Wang, G.; Ma, Z.; Jia, L.; Li, D.; Stabilizing Optimal Crystalline Facet of Cobalt Catalysts for Fischer–Tropsch Synthesis. ACS Appl. Mater. Interfaces 2019. 11, 33886-33893.
2018
1. Wang, G.; Yu, M.; Wang, J.; Li, D.; Tan, D.; Loffler, M.; Zhuang, X.; Mullen, K.; Feng, X., Self-Activating, Capacitive Anion Intercalation Enables High-Power Graphite Cathodes. Adv. Mater. 2018, 30 (20), 1800533. Highlighted by TUD CFAED: “New understanding on graphite: a high power cathode material”, 24.04.2018
2. Wang, G.; Wang, F.; Zhang, P.; Zhang, J.; Zhang, T.; Mullen, K.; Feng, X., Polarity-Switchable Symmetric Graphite Batteries with High Energy and High Power Densities. Adv. Mater. 2018, 30 (39), 1802949.
3. Wang, G.; Zhang, J.; Yang, S.; Wang, F.; Zhuang, X.; Müllen, K.; Feng, X., Vertically Aligned MoS2 Nanosheets Patterned on Electrochemically Exfoliated Graphene for High‐Performance Lithium and Sodium Storage. Adv. Energy Mater. 2018, 8 (8), 1702254. Advanced Energy Materials HOT Papers TOP 10 (2017.12) Highly cited paper
4. Wang, F.; Yang, H.; Zhang, J.; Zhang, P.; Wang, G.; Zhuang, X.; Cuniberti, G.; Feng, X., A Dual‐Stimuli‐Responsive Sodium‐Bromine Battery with Ultrahigh Energy Density. Adv. Mater. 2018, 30 (23), 1800028.
5. Qin, C.; Hou, B.; Wang, J.; Wang, Q.; Wang, G.; Yu, M.; Chen, C.; Jia, L.; Li, D., Crystal-Plane-Dependent Fischer–Tropsch Performance of Cobalt Catalysts. ACS Catalysis 2018, 8, 9447-9455.
2017
1. Xu, R.; Wang, G.; Zhou, T.; Zhang, Q.; Cong, H.-P.; Sen, X.; Rao, J.; Zhang, C.; Liu, Y.; Guo, Z.; Yu, S.-H., Rational design of Si@carbon with robust hierarchically porous custard-apple-like structure to boost lithium storage. Nano Energy 2017, 39, 253-261.
2. Zhang, J.; Wang, G.; Liao, Z.; Zhang, P.; Wang, F.; Zhuang, X.; Zschech, E.; Feng, X., Iridium nanoparticles anchored on 3D graphite foam as a bifunctional electrocatalyst for excellent overall water splitting in acidic solution. Nano Energy 2017, 40, 27-33.
3. Zhang, J.; Liu, P.; Wang, G.; Zhang, P. P.; Zhuang, X. D.; Chen, M. W.; Weidinger, I. M.; Feng, X. L., Ruthenium/nitrogen-doped carbon as an electrocatalyst for efficient hydrogen evolution in alkaline solution. J. Mater. Chem. A 2017, 5 (48), 25314-25318.
2016
1. Wang, G.; Sun, Y.; Li, D.; Wei, W.; Feng, X.; Müllen, K., Constructing Hierarchically Hollow Core–Shell MnO2/C Hybrid Spheres for High-Performance Lithium Storage. Small 2016, 12 (29), 3914-3919. Featured by ChemistryViews, “Storing Lithium in Nanostructured Spheres”, 12.07.2016
2015
1. Wang, G.; Sun, Y.; Li, D.; Liang, H.-W.; Dong, R.; Feng, X.; Müllen, K., Controlled Synthesis of N-Doped Carbon Nanospheres with Tailored Mesopores through Self-Assembly of Colloidal Silica. Angew. Chem. Int. Ed. 2015, 54 (50), 15191-15196.
2. Wei, W.; Wang, G.; Yang, S.; Feng, X.; Mullen, K., Efficient coupling of nanoparticles to electrochemically exfoliated graphene. J. Am. Chem. Soc. 2015, 137 (16), 5576-81.
3. Wang, G.; Jia, L.-t.; Hou, B.; Li, D.-b.; Wang, J.-g.; Sun, Y.-h., Self-assembled graphene monoliths: properties, structures and their pH-dependent self-assembly behavior. New Carbon Materials 2015, 30 (1), 30-40.
2012
1. Wang, G.; Jia, L.-T.; Zhu, Y.; Hou, B.; Li, D.-B.; Sun, Y.-H., Novel preparation of nitrogen-doped graphene in various forms with aqueous ammonia under mild conditions. RSC Adv. 2012, 2 (30), 11249-11252.