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周啸

副教授
所属二级机构:复合材料研究所
通讯地址:上海交通大学材料D楼
电子邮箱:zhouxiao113@sjtu.edu.cn
周啸,工学博士,上海交通大学副教授、博士生导师,国家高层次青年人才计划入选者、上海市领军人才(海外)。2018年毕业于加拿大麦吉尔大学,获工学博士学位(导师Jun Song教授)。2018-2021年在瑞士洛桑联邦理工学院从事博士后研究工作(导师William Curtin 教授)。近年来在光热功能材料智能设计与应用、金属及金属基复合材料服役行为与损伤机理等方面开展相关研究工作。先后主持国家自然科学基金、某部委重点项目课题、某部委挑战计划、科技部重点研发计划子任务等10余项、以第一/通讯作者(含共同)在Physical Review Letters(3篇)、Light: Science & Applications、Nano-Micro Letters、Matter、Advanced Functional Materials、npj Computational Materials、Nano Letters、Acta Materialia(6篇)、Corrosion Science(2篇)、International Journal of Plasticity等国际刊物发表SCI论文40余篇。申请发明专利10余项,软件著作权6项。目前担任MGE Advances、Materials Research Letters、Journal of Materials Informatics、Materials Futures、Microstructures等多个期刊青年编委。主讲本科生必修课程《材料性能-1.力学性能》、全校通选课程《热控材料导论:从地面到空间》,荣获材料学院第十四届最受欢迎教师(本科生组)。课题组常年招收硕博研究生、博士后。
研究方向
  • AI 赋能的光热功能材料智能设计与应用
  • 金属与金属基复合材料服役行为与力学损伤机理研究
研究情况

周啸,工学博士,上海交通大学副教授、博士生导师,国家高层次青年人才计划入选者、上海市领军人才(海外)。2018年毕业于加拿大麦吉尔大学,获工学博士学位(导师Jun Song教授)。2018-2021年在瑞士洛桑联邦理工学院从事博士后研究工作(导师William Curtin 教授)。近年来在光热功能材料智能设计与应用、金属及金属基复合材料服役行为与损伤机理等方面开展相关研究工作。先后主持国家自然科学基金、某部委重点项目课题、某部委挑战计划、科技部重点研发计划子任务等10余项、以第一/通讯作者(含共同)在Physical Review Letters(3篇)、Light: Science & Applications、Nano-Micro Letters、Matter、Advanced Functional Materials、npj Computational Materials、Nano Letters、Acta Materialia(6篇)、Corrosion Science(2篇)、International Journal of Plasticity等国际刊物发表SCI论文40余篇。申请发明专利10余项,软件著作权6项。目前担任MGE Advances、Materials Research Letters、Journal of Materials Informatics、Materials Futures、Microstructures等多个期刊青年编委。主讲本科生必修课程《材料性能-1.力学性能》、全校通选课程《热控材料导论:从地面到空间》,荣获材料学院第十四届最受欢迎教师(本科生组)。课题组常年招收硕博研究生、博士后。

论文信息
  • X. Zhou* et al, Dual-Functional Photonic Metacoating Integrating Fluorescence 5 Thermometry and High-performance Space Radiative Cooling, Nano-Micro Letters, accepted, 2026.
  • X. Zhou* et al, Material and Structure Tailored La‐Doped ZrO2 Submicrosphere Metacoatings for High‐Performance Space Radiative Cooling, Advanced Functional Materials, e28343, 2026.
  • X. Zhou* et al, Nucleation and growth mechanisms of type II twinning in uranium, Acta Materialia, 311, 122192, 2026.
  • X. Zhou* et al, The mechanisms of hydrogenation damage behavior of Ti/TiN coatings on depleted uranium surface, Corrosion Science, 265, 113810, 2026.
  • X. Zhou* et al, Predicting Infrared Optical Properties of Materials Using Machine Learning Interatomic Potentials, Materials Genome Engineering Advances, 4 (1), e70040, 2026.
  • X. Zhou* et al, Harnessing Jahn‐Teller Distortion via Cation Disorder Engineering for Broadband Solar Absorptance, Advanced Optical Materials, 14(3), e02103, 2026.
  • X. Zhou* et al, Bond-Valence-Driven Model for Highest Infrared-Active Optical Phonon Frequency in Complex Oxides, The Journal of Physical Chemistry Letters, 17 (1), 94-104, 2026.
  • X. Zhou* et al, The role of grain boundary character on hydrogen energetics and kinetics in tungsten: Insights from atomic-scale modeling, Acta Materialia, 296, 121267, 2025.
  • X. Zhou* et al, Effect of high-density nanotwins on hydrogen corrosion resistance in depleted uranium, International Journal of Plasticity, 193, 104459, 2025.
  • X. Zhou* et al, Effect of high-density nanotwins on hydrogen corrosion resistance in depleted uranium, Corrosion Science, 225, 113123, 2025.
  • X. Zhou* et al, Quantitative prediction of optical static refractive index in complex oxides, npj Computational Materials, 11,162, 2025.
  • X. Zhou* et al, Zirconia submicrosphere/potassium silicate metacoating with high irradiation stability for radiative cooling, Advanced Composites and Hybrid Materials, 8, 106, 2025.
  • X. Zhou* et al, Machine Learning Prediction Framework for Tailoring the Optical Response of Particulate Media, ACS Photonics, 12,5, 2775-2786, 2025.
  • X. Zhou* et al, Suppressing reflectance in Reststrahlen Bands of Cu0.64Cr1.51Mn(0.85-x)CoxO4 to achieving broadband high emissivity via phonon vibration modes coupling, Materials Today Physics, 51, 101649, 2025.
  • X. Zhou* et al, Controllable synthesis of monodispersed zirconia submicrospheres based on oligomer aggregation mechanism for enhanced scattering manipulation, Small Methods, 9, 2401990, 2025.
  • X. Zhou* et al, Prediction of Optical Properties in Particulate Media Using Double Optimization of Dependent Scattering and Particle Distribution, Nano Letters, 24, 287-294, 2024.
  • X. Zhou* et al, Critical assessment of H pipe diffusion at dislocations in metals, Acta Materialia, 268, 119758, 2024.
  • X. Zhou* et al, A machine learning strategy for enhancing the strength and toughness in metal matrix composites, International Journal of Mechanical Sciences, 281, 109550, 2024.
  • • X. Zhou* et al, Mechanism and prediction of hydrogen embrittlement in fcc stainless steels and high entropy alloys, Physical Review Letters, 127, 175501, 2021
  • • X. Zhou et al, Hydrogen diffusion along grain boundaries: fast or slow? Atomistic origin and mechanistic modeling, Physical Review Letters, 122, 215501, 2019
  • • X. Zhou et al, Chemomechanical origin of hydrogen trapping at grain boundaries in fcc metals, Physical Review Letters, 116, 075502, 2016
  • • X. Zhou* et al, First principles study of the effect of hydrogen in austenitic stainless steels and high entropy alloys, Acta Materialia, 200, 932-942, 2020
  • • X. Zhou et al, Effects of alloying elements on vacancies and vacancy-hydrogen clusters at coherent twin boundaries in Ni alloys, Acta Materialia, 148,9-17, 2018
  • • X. Zhou et al, Atomistic investigation of the influence of hydrogen on dislocation nucleation during nanoindentation in Ni and Pd, Acta Materialia, 116, 364-369, 2016
  • • X. Zhou# et al, Thermal effect and Rayleigh instability of ultrathin 4H hexagonal gold nanoribbons, Matter, 2(3),658-665, 2020
荣誉信息
  • 国家级青年人才(海外优青)2021
  • 上海市领军人才(海外)2021