学术论文
2025
[1] D. Li, Z. Zheng, B. Yang, L. Chen, D. Shi, J. Guo, C.-W. Nan, Atomic-Scale High-Entropy Design for Superior Capacitive Energy Storage Performance in Lead-Free Ceramics, Advanced Materials 37(10) (2025) 2409639.
[2] C. Zhou, F. Yan, Z. Zheng, B. Yang, T. Liu, J. Guo, Achieving superior capacitive energy storage in tape-casting fabricated Bi0.5Na0.5TiO3-based relaxor ferroelectrics via multiscale regulation, Energy Storage Materials 75 (2025) 104082.
[3] Y. Yang, K. Xu, B. Yang, X. Hou, Z. Dou, Y. Li, Z. Zheng, G. Luo, N. Luo, G. Ge, J. Zhai, Y. Fan, J. Wang, H. Yang, Y. Zhang, J. Wang, C. Wang, S. Jiang, K. Li, J. Guo, H. Huang, G. Zhang, Giant energy storage density with ultrahigh efficiency in multilayer ceramic capacitors via interlaminar strain engineering, Nature Communications 16(1) (2025) 1300.
[4] X. Kong, L. Yang, F. Meng, T. Zhang, H. Zhang, Y.-H. Lin, H. Huang, S. Zhang, J. Guo, C.-W. Nan, High-entropy engineered BaTiO3-based ceramic capacitors with greatly enhanced high-temperature energy storage performance, Nature Communications 16(1) (2025) 885.
[5] Z. Zhou, W. Bai, N. Liu, W. Zhang, S. Chen, P. Wang, J. Liu, J. Zhai, J. Guo, G. Du, Y. Wu, Z. Hong, W. Li, Z. Pan, Ultrahigh capacitive energy storage of BiFeO3-based ceramics through multi-oriented nanodomain construction, Nature Communications 16(1) (2025).
[6] F. Yan, S. Wang, J. Qian, Z. Zheng, L. Gu, J. Guo, J. Zhai, Tape-Casting Lead-Free Dielectrics Permit Superior Capacitive Energy Storage Performance, Advanced Energy Materials 15(14) (2025) 2403535.
[7] N. Arshad, M.S. Irshad, M. Alomar, J. Tao, X. Wang, G. Zhenzhen, M.A.K. Shah, M.S. Asghar, U. Ghazanfar, H.X. Nang, Z. Ouyang, N. Mushtaq, V.D. Dao, J. Guo, H. Wang, A Sustainable Solar Evaporation Strategy: Higher Condensate Yields Through Remote Condensing Structure via Polyelectrolyte Solar Evaporator, Advanced Functional Materials (2025).
[8] W. Fang, J. Wu, H. Qi, H. Ma, D. Zhou, H. Yu, Z. Zheng, J. Guo, J. Chen, Synergy ascension of Piezoresponse and curie temperature in bismuth-layered ceramics via defect engineering, Acta Materialia 293 (2025) 121108.
[9] Y. Zhang, X. Zhang, Z. Zheng, J. Xie, J. Lou, J. Qin, S. Wang, Y. He, Y. Du, B. Yang, X. Huang, H. Han, Y. Wu, S. Liu, A. Khan, Z. Li, Q. Ye, S.a. Yang, J. Ma, H. Zhang, X. Liu, Q. Chen, W. Hu, J. Ma, J. Yi, J. Guo, S. Peng, H. Pan, L. Wu, C.-W. Nan, Artificial ferroelectric-like hysteresis in antiferroelectrics with non-uniform disorder, Acta Materialia (2025) 121085.
[10] P. Panfilov, M. Mezhenov, A. Kuklina, J. Guo, D. Zaytsev, On cleavage crack morphology in some rock materials of different genesis, Materials Letters 379 (2025).
[11] Z. Li, W. Zhou, J. Guo, X. Lv, S. Lin, Y. Li, L. Gu, F. Yan, Outstanding comprehensive energy storage performance in BNT-based lead-free ceramics via synergistic optimization strategy, Chemical Engineering Journal 504 (2025).
[12] H. Zhang, Z. Cheng, Y. Guo, Y. Song, Z. Wang, J. Zhao, L. Yuan, Y. Yuan, J. Guo, Y. Yao, Y. Huang, Localized electric field enabling rapid and quasi-dry recycling of cathode active materials at ambient condition, Energy Storage Materials 75 (2025).
[13] S. Liu, C. Lin, J. Chen, H. Liu, W. Shi, R. Hu, H. Liu, J. Lian, J. Guo, Y. Yao, Finely Tailoring Metal–Support Interactions via Transient High-Temperature Pulses, ACS Applied Materials & Interfaces 17(8) (2025) 12328-12338.
[14] Y. Song, H. Zhang, S. Guo, C. Lin, Z. Wang, X. Hu, M. Cao, L. Qie, D. Li, X. Ji, J. Guo, Y. Yao, Y. Huang, Kinetically tunable O vacancies in LiFePO4 for improved Li+/e-conduction and high-rate cycling, Nano Research (2025).
2024
[1] Z. Zhang, X. Shang, X. Liu, Y. He, Z. Zhang, J. Guo, Achieving excellent mechanical and electrical properties in transition metal oxides and rare earth oxide‐doped KNN‐based piezoceramics, Journal of the American Ceramic Society 107(9) (2024) 5923-5938.
[2] J. Hu, Z. Zheng, T. Zhang, L. Lv, Z. Zhou, J. Liu, P. Li, Y. Cao, J. Guo, Z. Pan, Superb energy density of PbHfO3-based antiferroelectric ceramics via regulating the antiferroelectric–ferroelectric transition energy barrier, Journal of Materials Chemistry A 12(47) (2024) 32836-32844.
[3] H. Li, J. Zhao, Y. Li, L. Chen, X. Chen, H. Qin, H. Zhou, P. Li, J. Guo, D. Wang, Bismuth Ferrite-Based Lead-Free High-Entropy Piezoelectric Ceramics, ACS Applied Materials & Interfaces 16(7) (2024) 9078-9087.
[4] Z. Zhou, J. Guo, Y. Zheng, Y. Yang, B. Yang, D. Li, W. Zhang, B. Wei, C. Liu, J.L. Lan, C.W. Nan, Y.H. Lin, Boosting Thermoelectric Performance via Weakening Carrier‐Phonon Coupling in BiCuSeO‐Graphene Composites, Small Methods (2024).
5] G. Hu, Z. Yu, H. Qu, Y. Yuan, D. Li, M. Zhu, J. Guo, C. Xia, X. Wang, B. Wang, G. Ma, H. Wang, W. Dong, Cu/MgO-based resistive random access memory for neuromorphic applications, Applied Physics Letters 124(14) (2024).
[6] M. Sohail Asghar, N. Arshad, M. Sultan Irshad, N. Alwadie, X. Wang, M. Atif Ali, I. Ahmed, J. Li, V. Tan Tran, V. Anh Doan, V.-D. Dao, J. Guo, Natural ore filter cube decorated polypyrrole for effective thermal management and enhanced solar steam generator, Solar Energy 274 (2024).
[7] M. Zhu, Z. Yu, G. Hu, K. Yu, Y. Jiang, J. Wang, W. Dong, J. Guo, Y. Qiu, G. Yu, H.M. Zhou, A TaOx/TiOy Bilayer Memristor with Enhanced Synaptic Features for Neuromorphic Computing, Advanced Electronic Materials 10(8) (2024).
[8] Y. Hu, W. Dong, J. Zhang, X. Peng, X. Wang, C. Xia, B. Wang, J. Guo, H. Wang, Interfacial ionic transportation in composite electrolyte induced by element segregation for low temperature fuel cells, Journal of Power Sources 613 (2024).
[9] J. Fu, A. Xie, R. Zuo, Y. Liu, H. Qi, Z. Wang, Q. Feng, J. Guo, K. Zeng, X. Chen, Z. Fu, Y. Zhang, X. Jiang, T. Li, S. Zhang, Y.-H. Lin, C.-W. Nan, A highly polarizable concentrated dipole glass for ultrahigh energy storage, Nature Communications 15(1) (2024).
[10] B. Yang, T. Zhang, H. Zhang, M.S. Irshad, J. Guo, Reversible photochromism and photoluminescence modulation in (K,Na)NbO3‐based ceramics via oxygen vacancy regulation, Journal of the American Ceramic Society 108(2) (2024).
[11] H. Zhang, Y. Song, J. Zhao, Z. Cheng, J. Guo, M. Cao, H. Yu, H. Wang, L. Qie, L. Yuan, Y. Yao, Y. Huang, Kinetics Dominated, Interface Targeted Rapid Heating for Battery Material Rejuvenation, Advanced Energy Materials 15(13) (2024).
[12] M.S. Irshad, N. Arshad, G. Maqsood, M.S. Asghar, P. Wu, N. Mushtaq, M.A.K.Y. Shah, L. Lin, X. Li, I. Ahmed, T. Mei, M. Sabir, H. Wang, P.V. Pham, H. Li, H.X. Nang, V.D. Dao, J. Guo, X. Wang, Interdisciplinary Hybrid Solar‐Driven Evaporators: Theoretical Framework of Fundamental Mechanisms and Applications, Small 21(7) (2024).
2023
[1] B. Yang, H. Peng, Y. Zhang, X. Shang, T. Zhou, J. Guo, Enhancing depolarization temperature and thermal stability of KNN-based piezoelectric ceramics through Li substitution and Al2O3 doping, Materials Research Bulletin 158 (2023).
[2] J. Stolarski, J. Drake, I. Coronado, A.R. Vieira, U. Radwańska, E.A.C. Heath-Heckman, M. Mazur, J. Guo, A. Meibom, First paleoproteome study of fossil fish otoliths and the pristine preservation of the biomineral crystal host, Scientific Reports 13(1) (2023).
[3] D. Deng, M.S. Irshad, X. Kong, P. Panfilov, L. Yang, J. Guo, Potassium sodium niobate-based transparent ceramics with high piezoelectricity and enhanced energy storage density, Journal of Alloys and Compounds 953 (2023).
[4] D. Li, W. Gu, M.S. Irshad, D. Deng, B. Yang, J. Chen, Y. He, J. Guo, Simultaneously achieving high transparency and applicable piezoelectricity in Sm-modified KNN-based lead-free ceramics, Journal of Alloys and Compounds 955 (2023).
[5] X. Peng, B. Yang, D. Deng, Z. Cai, X. Kong, L. Yang, J. Guo, Lead-free KNN-based ceramics incorporated with Bi(Zn2/3Nb1/3)O3 possessing excellent optical transmittance and superior energy storage density, Materials Research Bulletin 165 (2023).
[6] A. Adams, D. Daval, L.P. Baumgartner, S. Bernard, T. Vennemann, D. Cisneros-Lazaro, J. Stolarski, A. Baronnet, O. Grauby, J. Guo, A. Meibom, Rapid grain boundary diffusion in foraminifera tests biases paleotemperature records, Communications Earth & Environment 4(1) (2023).
[7] X. Kong, L. Yang, Z. Luo, Y. Liu, S. Lan, B. Yang, F. Meng, W. Ren, X. Zhang, J. Cai, Y.-H. Lin, J. Guo, C.-W. Nan, Bismuth ferrite-modified lead-free ceramics with reduced sintering temperature and improved energy storage properties, Applied Physics Letters 122(18) (2023).
[8] L. Yang, J. Qi, M. Yang, J. Fu, Y. Liu, S. Lan, B. Yang, F. Meng, W. Ren, X. Zhang, J. Cai, Y.-H. Lin, J. Guo, X. Kong, C.-W. Nan, High comprehensive energy storage properties in (Sm, Ti) co-doped sodium niobate ceramics, Applied Physics Letters 122(19) (2023).
[9] P. Huang, L. Chen, D. Shi, Q. Liu, J. Chen, M. Li, Y. Lu, J. Guo, Y. He, MgO (1 0 0) as an affordable support for heteroepitaxial growth of high-quality β-Ga2O3 thin films and related highly-sensitive solar-blind UV photodetectors, Applied Surface Science 634 (2023).
[10] X. Peng, T. Zhu, T. Wang, X. Shang, T. Zhou, W. Gong, J. Guo, Achieving superior electrical performance of high-temperature piezoelectric ceramics for high-power applications via MnO2 doping and intentional Ti nonstoichiometry for inhibiting pyrochlore phase, Journal of Materials Science 58(24) (2023) 10073-10084.
[11] B. Yang, W. Gu, D. Li, X. Shang, Z. Zhou, J. Guo, Accelerated design of lead-free high-performance piezoelectric ceramics with high accuracy via machine learning, Journal of Advanced Ceramics 12(7) (2023) 1389-1405.
[12] J. Chen, J. Mao, Z. Wang, Y. Dong, J. Guo, M. Li, Y. Zhang, Y. Lu, Y. He, Bandgap narrowing and polarization enhancement in (K,Na,Li)(Nb,Sb,Ta)O3+x% Fe2O3 lead-free ceramics for photovoltaic applications, Journal of Advanced Ceramics 12(7) (2023) 1406-1417.
[13] N. Arshad, M.S. Irshad, M.S. Asghar, M. Alomar, J. Tao, M.A.K.Y. Shah, X. Wang, J. Guo, S. Wageh, O.A. Al‐Hartomy, A. Kalam, Y. Hao, Z. Ouyang, H. Zhang, 2D MXenes Embedded Perovskite Hydrogels for Efficient and Stable Solar Evaporation, Global Challenges 7(9) (2023).
[14] M.S. Irshad, N. Arshad, M.S. Asghar, Y. Hao, M. Alomar, S. Zhang, J. Zhang, J. Guo, I. Ahmed, N. Mushtaq, M.A.K.Y. Shah, L. Noureen, S. Wageh, O.A. Al‐Hartomy, A. Kalam, V.D. Dao, H. Wang, X. Wang, H. Zhang, Advances of 2D‐Enabled Photothermal Materials in Hybrid Solar‐Driven Interfacial Evaporation Systems toward Water‐Fuel‐Energy Crisis, Advanced Functional Materials 33(51) (2023).
[15] N. Arshad, M.S. Irshad, M. Alomar, J. Guo, M.S. Asghar, N. Mushtaq, M.A.K. Yousaf, U. Ghazanfar, M. Shah, X. Wang, Y. Hao, L.T. Do, V.-D. Dao, H. Wang, Z. Ouyang, H. Zhang, Exploring perovskite oxide for advancing salt-resistant photothermal membranes and reliable thermoelectric generators, Chemical Engineering Journal 475 (2023).
[16] H. Lan, L. Wang, R. He, S. Huang, J. Yu, J. Guo, J. Luo, Y. Li, J. Zhang, J. Lin, S. Zhang, M. Zeng, L. Fu, 2D quasi-layered material with domino structure, Nature Communications 14(1) (2023).
2022
[1] D. Cisneros-Lazaro, A. Adams, J. Guo, S. Bernard, L.P. Baumgartner, D. Daval, A. Baronnet, O. Grauby, T. Vennemann, J. Stolarski, S. Escrig, A. Meibom, Fast and pervasive diagenetic isotope exchange in foraminifera tests is species-dependent, Nature Communications 13(1) (2022).
[2] W. Gu, B. Zhao, B. Yang, Z. Cai, X. Shang, T. Zhou, J. Guo, Achieving superior electrical properties of PZT-PNN piezoelectric ceramics through low-temperature sintering with PbO-CuO eutectic additives, Journal of the European Ceramic Society 42(9) (2022) 3831-3840.
[3] Z. Zhang, B. Yang, W. Gu, H. Yu, L. Yang, X. Shang, T. Zhou, J. Guo, Significantly toughened PZT-based piezoelectric ceramics simultaneously keeping excellent electrical properties via incorporating trace amount of yttria-partially-stabilized zirconia, Ceramics International 48(23) (2022) 35614-35620.
[4] P. Panfilov, A. Kabanova, D. Zaytsev, L.P. Kiselnikova, J. Guo, Z.L. Zhang, Structure and Deformation Behavior of Human Dentin, Reviews on Advanced Materials and Technologies 4(2) (2022) 32-42.
2021
[1] H. Zhang, F.T. Eickemeyer, Z. Zhou, M. Mladenović, F. Jahanbakhshi, L. Merten, A. Hinderhofer, M.A. Hope, O. Ouellette, A. Mishra, P. Ahlawat, D. Ren, T.-S. Su, A. Krishna, Z. Wang, Z. Dong, J. Guo, S.M. Zakeeruddin, F. Schreiber, A. Hagfeldt, L. Emsley, U. Rothlisberger, J.V. Milić, M. Grätzel, Multimodal host–guest complexation for efficient and stable perovskite photovoltaics, Nature Communications 12(1) (2021).
[2] D. Cisneros-Lazaro, A. Adams, J. Guo, S. Bernard, D. Daval, A. Baronnet, O. Grauby, T. Vennemann, J. Stolarski, L. Baumgartner, A. Meibom, Species-specific foraminiferal ultrastructures modulate surfaces available for diagenesis, Microscopy and Microanalysis 27(S1) (2021) 274-275.
2020
[3] J. Guo, Q. Shao, O. Renk, L. Li, Y. He, Z. Zhang, R. Pippan, Combined Fe and O effects on microstructural evolution and strengthening in Cu–Fe nanocrystalline alloys, Materials Science and Engineering: A 772 (2020).
[4] Q. Shao, J. Guo, J. Chen, Z. Zhang, Atomic-scale investigation on the structural evolution and deformation behaviors of Cu–Cr nanocrystalline alloys processed by high-pressure torsion, Journal of Alloys and Compounds 832 (2020).
[5] Y. Zhang, J. Guo, W. Ming, J. Chen, Z. Zhang, Atomic-scale study on incoherent twin boundary evolution in nanograined Cu, Scripta Materialia 186 (2020) 278-281.
[6] J. Chen, A.S. Priya, D. You, W. Pei, Q. Zhang, Y. Lu, M. Li, J. Guo, Y. He, Self-driven ultraviolet photodetectors based on ferroelectric depolarization field and interfacial potential, Sensors and Actuators A: Physical 315 (2020).
[7] J. Guo, H. Zhou, T. Fan, B. Zhao, X. Shang, T. Zhou, Y. He, Improving electrical properties and toughening of PZT-based piezoelectric ceramics for high-power applications via doping rare-earth oxides, Journal of Materials Research and Technology 9(6) (2020) 14254-14266.
2020前
[1] Y. Zhang, J. Guo, J. Chen, C. Wu, K.S. Kormout, P. Ghosh, Z. Zhang, On the stacking fault energy related deformation mechanism of nanocrystalline Cu and Cu alloys: A first-principles and TEM study, Journal of Alloys and Compounds 776 (2019) 807-818.
[2] J. Guo, M.J. Duarte, Y. Zhang, A. Bachmaier, C. Gammer, G. Dehm, R. Pippan, Z. Zhang, Oxygen-mediated deformation and grain refinement in Cu-Fe nanocrystalline alloys, Acta Materialia 166 (2019) 281-293.
[3] Z. Zhang, J. Guo, R. Pippan, Tracking the Structural and Chemical Evolution of Nanostructured Materials by In-Situ Experiments, Microscopy and Microanalysis 25(S1) (2019) 19-20.
[4] Y. Zhang, Z. Xu, W. Ming, J. Guo, Z. Zhang, J. Chen, Atomic resolution analyses on defects in nanocrystalline Cu-based alloys generated by severe plastic deformation, Materials Characterization 157 (2019).
[5] J.M. Rosalie, P. Ghosh, J. Guo, O. Renk, Z. Zhang, Microstructural and texture evolution of copper-(chromium, molybdenum, tungsten) composites deformed by high-pressure-torsion, International Journal of Refractory Metals and Hard Materials 75 (2018) 137-146.
[6] R. Cao, T. Xia, R. Zhu, Z. Liu, J. Guo, G. Chang, Z. Zhang, X. Liu, Y. He, Novel synthesis of core-shell Au-Pt dendritic nanoparticles supported on carbon black for enhanced methanol electro-oxidation, Applied Surface Science 433 (2018) 840-846.
[7] J. Guo, G. Haberfehlner, J. Rosalie, L. Li, M.J. Duarte, G. Kothleitner, G. Dehm, Y. He, R. Pippan, Z. Zhang, In situ atomic-scale observation of oxidation and decomposition processes in nanocrystalline alloys, Nature Communications 9(1) (2018) 946.
[8] P. Panfilov, A. Kabanova, J. Guo, Z. Zhang, Transmission electron microscopical study of teenage crown dentin on the nanometer scale, Materials Science and Engineering: C 71 (2017) 994-998.
[9] J. Guo, J. Rosalie, R. Pippan, Z. Zhang, On the phase evolution and dissolution process in Cu-Cr alloys deformed by high pressure torsion, Scripta Materialia 133 (2017) 41-44.
[10] J. Guo, J.M. Rosalie, R. Pippan, Z. Zhang, Revealing the Microstructural evolution in Cu-Cr nanocrystalline alloys during high pressure torsion, Materials Science and Engineering: A 695 (2017) 350-359.
[11] J.M. Rosalie, J. Guo, R. Pippan, Z. Zhang, On nanostructured molybdenum–copper composites produced by high-pressure torsion, Journal of Materials Science 52(16) (2017) 9872-9883.
[12] Z. Zhang, J. Guo, G. Dehm, R. Pippan, In-situ tracking the structural and chemical evolution of nanostructured CuCr alloys, Acta Materialia 138 (2017) 42-51.
[13] J. Guo, F. Xu, X. Shang, Y. Lu, P. Li, T. Zhou, Z. Zhang, Y. He, D. Damjanovic, High‐Performance Small‐Amount Fe2O3‐Doped (K,Na)NbO3‐Based Lead‐Free Piezoceramics with Irregular Phase Evolution, Journal of the American Ceramic Society 99(7) (2016) 2341-2346.
[14] X. Shang, J. Guo, W. Xiao, Y. Lu, G. Chang, T. Zhou, Y. He, The Effects of Ta Substitution and K/Na Ratio Variation on the Microstructure and Properties of (K,Na)NbO3-Based Lead Free Piezoelectric Ceramics, Journal of Electronic Materials 43(5) (2014) 1424-1431.
[15] X. Shang, H. Liu, J. Guo, D. Jiang, T. Zhou, Y. He, Enhancing the properties of high-temperature BiScO3–PbTiO3 piezoceramics via Bi addition, Materials Research Bulletin 48(9) (2013) 3072-3076.
专利
[1] 郭金明,郑子豪,张豪,李登峰,一种高熵无铅储能陶瓷材料及其制备方法和应用,中国发明专利,202411316132.5
[2] 郭金明,杨滨,张豪,一种新型光致变色压电陶瓷及其制备方法,中国发明专利,202411316137.8
[3] 郭金明,张豪,刘彤辉,张意竹,一种致密块体功能陶瓷的快速高温烧结方法,中国发明专利,202411695916.3
[4] 郭金明,陈龙宇,周昌平,杜贻峰,一种优异耐疲劳特性无铅储能陶瓷材料及其制备方法和应用,中国发明专利,202510427790.X
[5] 郭金明,董新海,张豪,一种含铅陶瓷的冷壁快速高温铅回收方法,中国发明专利,202510640566.9
[6] 郭金明,杨金东,一种紫外光清洗装置,实用新型专利,中国,ZL202421171006.0
[7] 郭金明,杨金东,紫外光清洗仪,外观设计专利,中国,ZL202430115692.9