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程子明科研成果

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程子明
姓名 程子明 性别 程子明
学校 哈尔滨工业大学 部门 新能源学院(威海)
学位 程子明 学历 程子明
职称 联系方式 0631-5687782
邮箱 chengzm@hit.edu.cn    
软件产品登记测试全国受理 软件著作权666元代写全部资料全国受理 实用新型专利1875代写全部资料全国受理
程子明

基本信息 科学研究 论文著作 团队信息 新建主栏目 基本信息 名称 程子明,1994年2月,特聘副教授,硕士生导师。2018年、2022年于哈尔滨工业大学分别获得硕士、博士学位。目前主要研究方向为光谱辐射调控、太阳能全光谱利用、辐射制冷以及高功率器件热控。主持国家自然科学基金青年项目、山东省自然科学基金青年项目以及哈工大科研启动基金3项,参与国家重点研发计划、国家自然科学基金面上项目以及中广核集团等多项项目,在Nano Energy、Nano Letters、ACS Photonics、Renew. Sust. Energ. Rev、Int. J Heat Mass Tran、Sol. Energ. Mat. Sol. C等期刊发表SCI论文30余篇,入选ESI高被引论文3篇,封面文章2篇,最高影响因子17.6,引用2300余次,H因子24,其中以第一/通讯作者发表SCI论文13篇;授权发明专利4项,其中1项专利获得技术转让。曾获博士、硕士研究生国家奖学金、工信部创新奖学金、国际仿生工程学会仿生创新二等奖、春晖奖学金、威海市自然科学一等奖等奖项。作为指导老师指导本科生获得全国节能减排大赛二等奖两项、山东省节能减排大赛一等奖一项。 工作经历 标题 工作单位 哈尔滨工业大学(威海) 新能源学院 新能源科学与工程系 职位/职称 硕士生导师 起讫时间 2024.03-至今 简单介绍 标题 工作单位 哈尔滨工业大学(威海) 新能源学院 新能源科学与工程系 职位/职称 特聘副教授 起讫时间 2023.12-至今 简单介绍 标题 工作单位 哈尔滨工业大学;中建二局 职位/职称 博士后 起讫时间 2023.07-至今 简单介绍 合作导师:哈尔滨工业大学 马军 院士,中建二局中建中环 徐增辉 标题 工作单位 哈尔滨工业大学(威海) 新能源学院 新能源科学与工程系 职位/职称 讲师 起讫时间 2022.09-2023.12 简单介绍 教育经历 标题 博士 起讫时间 2018.09--2022.07 所学专业 工程热物理 学习机构 哈尔滨工业大学 学历 博士 简单介绍 导师:王富强 教授 副导师:帅永 教授 标题 联合培养博士 起讫时间 2021.03--2022.03 所学专业 机械工程 学习机构 英国诺丁汉大学 学历 CSC联合培养 简单介绍 合作导师:Yuying Yan 教授 标题 硕士 起讫时间 2016.09--2018.07 所学专业 动力工程及工程热物理 学习机构 哈尔滨工业大学 学历 硕士 简单介绍 导师,王富强 教授 标题 本科 起讫时间 2012.09--2016.06 所学专业 热能与动力工程 学习机构 中国石油大学(华东) 学历 本科 简单介绍 荣誉称号 称号名称 博士研究生国家奖学金 获奖时间 2021年 获奖地点 简单介绍 称号名称 硕士研究生国家奖学金 获奖时间 2017年 获奖地点 简单介绍 称号名称 国际仿生工程学会仿生创新二等奖 获奖时间 2022 获奖地点 简单介绍 称号名称 工信创新奖学金 获奖时间 2017年 获奖地点 简单介绍 称号名称 威海市自然科学一等奖 获奖时间 2019年 获奖地点 简单介绍 序2/3 称号名称 春晖创新成果奖 获奖时间 2018年 获奖地点 简单介绍 称号名称 哈工大优秀硕士毕业生(金奖) 获奖时间 2018年 获奖地点 简单介绍 称号名称 黑龙江省三好学生 获奖时间 2018年 获奖地点 简单介绍 称号名称 山东省优秀毕业生 获奖时间 2016年 获奖地点 简单介绍 称号名称 威海市中日创新大赛特等奖 获奖时间 2021年 获奖地点 简单介绍 研究领域 名称 · 光谱辐射调控:单波段、多波段光谱的自主调控 · 太阳能全光谱利用:光催化、光热分频耦合利用 · 辐射制冷:辐射制冷材料的设计、制备以及规模化推广 科研项目 项目名称 国家自然科学基金青年项目 项目来源 国家自然科学基金委 开始时间 2024.01 结束时间 2026.12 项目经费 担任角色 负责 项目类别 纵向项目 项目状态 进行中 简单介绍 项目名称 山东省自然科学基金青年项目 项目来源 山东省自然科学基金委 开始时间 2024.01 结束时间 2025.12 项目经费 担任角色 负责 项目类别 纵向项目 项目状态 简单介绍 项目名称 青年教师发展基金 项目来源 哈尔滨工业大学 开始时间 2023.09 结束时间 2025.09 项目经费 担任角色 负责 项目类别 纵向项目 项目状态 进行中 简单介绍 项目名称 项目来源 国家自然科学基金面上项目 开始时间 2021.01 结束时间 2024.12 项目经费 58万 担任角色 参与 项目类别 纵向项目 项目状态 进行中 简单介绍 期刊论文 名称 代表性成果: [1] Cheng Zi-Ming#,Han Han#,Wang Fu-Qiang*,Yan Yu-Ying,Shi Xu–Hang,Liang Hua-Xu,Zhang Xin-Ping,Shuai Yong.Efficient radiative cooling coating with biomimetic human skin wrinkle structure.Nano Energy,2021,89:106377(SCI、EI,IF=17.6,一区,入选ESI高被引) [2] Dong Yan#,Meng Wei-Feng#,Wang Fu-Qiang*,Han Han, Liang Hua-Xu, Li Xiang, Zou Ya-Nan, Yang Chun, Xu Zeng-Hui, Yan Yu-Ying, Cheng Zi-Ming*. Warm in Winter and Cool in Summer": Scalable BiochameleonInspired Temperature-Adaptive Coating with Easy Preparation andConstruction. Nano Letters, 2023(SCI、EI,IF=10.8,一区) [3] Zhang Xin-Ping#, Cheng Zi-Ming#,Yang Dong-Ling,Dong Yan,Shi Xu-Hang,Liang Hua-Xu Wang Fu-Qiang*, Han Han,Meng Wei-Feng,Shuai Yong,Yan Yu-Ying. (2023). Scalable Bio-Skin-Inspired Radiative Cooling Metafabric for Breaking Trade-Off between Optical Properties and Application Requirements. ACS Photonics, 2023,10(5),1624-1632.(SCI、EI,IF=7.0,一区,封面文章,受到美国化学与工程等机构报道) [4] Wang Fu-Qiang,Cheng Zi-Ming,Tan Jian-Yu*,Yuan Yuan,Shuai Yong,Liu Lin-Hua.Progress in concentrated solar power technology with parabolic trough collector system: a comprehensive review.Renewable and Sustainable Energy Reviews,2017,79:1314–1328(SCI、EI,IF=14.982,入选ESI高引、热点,Top期刊, 被引用397次) [5] Cheng Zi-Ming,Wang Fu-Qiang*,Gong Da-Yang,Liang Hua-Xu,Shuai Yong.Low-cost radiative cooling blade coating with ultrahigh visible light transmittance and emission within an “atmospheric window”.Solar Energy Materials and Solar Cells,2020,213:110563(SCI、EI,IF=7.305) [6] 王富强,程子明,龚大洋,一种具有自清洁功能的辐射致冷膜及其制备方法,2021,中国,专利号: ZL 2018109521619(发明,已授权,技术转让) [6] 王富强,程子明,一种具有自清洁功能的辐射致冷涂层及其制备方法,2021,中国,专利号: ZL 201810952183.5(发明,已授权) 已发表(录用)论文 ------------------------------------------------------------------------------------------------------- 2024年 ------------------------------------------------------------------------------------------------------- [46] Wang Fu-Qiang, Li Chunzhe, Yang Zhenning, Xie Weixin, Li Xiang, Xu Zenghui, Yan Yuying ,Cheng Zi-Ming*. A double-layer radiative cooling coating that utilizes the refractive index difference between layers to achieve extremely high solar reflectivity. Science China-Technological Sciences, 2024 -------------------------------------------------------------------------------------------------- 2023年 ------------------------------------------------------------------------------------------------------- [45]Dong Yan#,Meng Wei-Feng#,Wang Fu-Qiang*,Han Han, Liang Hua-Xu, Li Xiang, Zou Ya-Nan, Yang Chun, Xu Zeng-Hui, Yan Yu-Ying, Cheng Zi-Ming*. Warm in Winter and Cool in Summer": Scalable BiochameleonInspired Temperature-Adaptive Coating with Easy Preparation andConstruction. Nano Letters, 2023(SCI、EI,IF=10.8,一区) [44] Zhang Xin-Ping#, Cheng Zi-Ming#,Yang Dong-Ling,Dong Yan,Shi Xu-Hang,Liang Hua-Xu Wang Fu-Qiang*, Han Han,Meng Wei-Feng,Shuai Yong,Yan Yu-Ying. (2023). Scalable Bio-Skin-Inspired Radiative Cooling Metafabric for Breaking Trade-Off between Optical Properties and Application Requirements. ACS Photonics, 2023,10(5),1624-1632. ------------------------------------------------------------------------------------------------------- 2022年 ------------------------------------------------------------------------------------------------------- [43] Wang Fu-Qiang,Zhang Xin-Ping,Dong Yan,Yi Hong-Liang,Shi Xu-Hang,Li Yang,Cheng Zi-Ming*.Progress in radiative transfer in porous medium: a review from macro scale to pore scale with experimental test.Applied Thermal Engineering,2022,210:118331 [42] Sun, Ze-Yu., Luo Ding, Wang Ruo-Chen, Li Ying, Yan Yu-Ying, Cheng Zi-Ming, Chen Jie. Evaluation of energy recovery potential of solar thermoelectric generators using a three-dimensional transient numerical model. Energy, 2022, 256: 124667. [41] Liang Hua-Xu,Su Rong-Hua,Huang Wei-Ming,Cheng Zi–Ming,Wang Fu–Qiang*,Huang Gan,Yang Dong-Ling.A novel spectral beam splitting photovoltaic/thermal hybrid system based on semi-transparent solar cell with serrated groove structure for co-generation of electricity and high-grade thermal energy.Energy Conversion and Management,2022,252:115049 [40] Dong Yan,Han Han,Wang Fu–Qiang*,Zhang Ying-Jie,Cheng Zi–Ming,Shi Xu–Hang,Yan Yu-Ying.A low-cost sustainable coating: improving passive daytime radiative cooling performance using the spectral band complementarity method.Renewable Energy,2022,192:606-616 [39] Wang Fu-Qiang,Zhang Guo-Liang,Dong Yan*,Yi Hong-Liang,Shi Xu-Hang,Li Yang,Cheng Zi-Ming.Biomimetically calabash-inspired phase change material capsule: experimental and numerical analysis on thermal performance and flow characteristics.Journal of Energy Storage,2022,52:104859 [38] Shi Xu-Hang,Xun Yi-Meng,Dong Yan,Wang Fu-Qiang*,Zhang Xin-Ping,Cheng Zi-Ming.Analysis of biomimetic hierarchical porous structure regulating radiation field to improve solar thermochemical performance based on minimum Gibbs free energy.International Journal of Hydrogen Energy,2022,47(5):2832–2845 [37] Zhang Ao-Yu,Wang Fu-Qiang*,Cheng Zi–Ming,Liang Hua-Xu,Shi Xu-Hang.Radiative property investigation of dispersed particulate medium with the consideration of non-uniform particle size distribution and dependent scattering effects.International Journal of Heat and Mass Transfer,2022,186:122488 [36] Shi Xu-Hang,Zhao Xu-Yi,Wang Fu-Qiang*,Cheng Zi–Ming,Dong Yan,Xu Jie.Improving overall heat transfer performance of parabolic trough solar receiver by helically convex absorber tube.Applied Thermal Engineering,2022,213:118690 [35] Wang Fu-Qiang,Zhang Xin-Ping,Wang Hao-Ran,Li Yang*,Dong Yan,Lin Bo,Liang Hua-Xu,Cheng Zi-Ming.An energy-efficient glass using biomimetic structures with excellent energy saving features in both hot and cold weather.Journal of Quantitative and Radiative Transfer,2022,286:108180 ------------------------------------------------------------------------------------------------------- 2021年 ------------------------------------------------------------------------------------------------------- [34] Cheng Zi-Ming#,Han Han#,Wang Fu-Qiang*,Yan Yu-Ying,Shi Xu–Hang,Liang Hua-Xu,Zhang Xin-Ping,Shuai Yong.Efficient radiative cooling coating with biomimetic human skin wrinkle structure.Nano Energy,2021,89:106377 [33] Cheng Zi–Ming,Lin Bo,Shi Xu–Hang,Wang Fu–Qiang*,Liang Hua–Xu,Shuai Yong.Influences of atmospheric water vapor on spectral effective emissivity of a single-layer radiative cooling coating.AIMS Energy,2021,9(1):96–116 [32] Liang Hua–Xu,Wang Fu–Qiang*,Yang Lu–Wei,Cheng Zi-Ming,Shuai Yong,Tan He–Ping.Progress in full spectrum solar energy utilization by spectral beam splitting hybrid PV/T system.Renewable and Sustainable Energy Reviews,2021,141:110785 [31] Shi Xu-Hang,Wang Fu-Qiang*,Cheng Zi-Ming,Liang Hua–Xu,Dong Yan,Chen Xue.Numerical analysis of the biomimetic leaf-type hierarchical porous structure to improve the energy storage efficiency of solar driven steam methane reforming. International Journal of Hydrogen Energy,2021,46:17653–17665 [30] Zhang Xin-Ping,Yang Lu-Wei,Wang Fu-Qiang*,Cheng Zi-Ming,Liang Hua–Xu.Wrinkled surface microstructure for enhancing infrared spectral performance of radiative cooling.Optics Express,2021,29 (8):11416–11432 [29] 陈浩, 王存海, 程子明, 魏林杨, 王富强, 张欣欣. 基于辐射制冷-温室效应的热电系统性能分析[J]. 物理学报, 2021, 70(21): 214401 [28] 韩寒,王富强*,梁华旭,程子明,史旭航.非球状形貌粒子Au-H2O纳米流体光谱分频光伏/光热系统性能研究.东北电力大学学报,2021,41(1):1–7. ------------------------------------------------------------------------------------------------------- 2020年 ------------------------------------------------------------------------------------------------------- [27] Cheng Zi-Ming,Wang Fu-Qiang*,Gong Da-Yang,Liang Hua-Xu,Shuai Yong.Low-cost radiative cooling blade coating with ultrahigh visible light transmittance and emission within an “atmospheric window”.Solar Energy Materials and Solar Cells,2020,213:110563 [26] Cheng Zi-Ming,Shuai Yong,Gong Da-Yang,Wang Fu-Qiang*,Liang Hua-Xu,Li Gui-Qiang.Optical properties and cooling performance analyses of single-layer radiative cooling coating with mixture of TiO2 particles and SiO2 particles.Science China-Technological Sciences,2020,63:1–13 [25] Wang Fu-Qiang,Shi Xu-Hang,Zhang Chuan-Xin*,Cheng Zi–Ming,Chen Xue.Effects of non-uniform porosity on thermochemical performance of solar driven methane reforming. Energy,2020,191:116575 [24] Liang Hua-Xu,Wang Fu-Qiang*,Zhang Dong,Cheng Zi–Ming,Zhang Chuan-Xin,Lin Bo,Xu Hui-Jin.Experimental investigation of cost-effective ZnO nanofluids based spectral splitting CPV/T system. Energy,2020,194:116913 [23] Shi Xu-Hang,Shuai Yong,Wang Fu-Qiang*,Zhang Chuan-Xin,Cheng Zi-Ming,Chen Xue.Effects of ordered hierarchically porous structure on methane reforming performance in solar foam reactor. Journal of CO2 Utilization,2020,37:147–157 [22] Liang Hua-Xu,Wang Fu-Qiang*,Cheng Zi-Ming,Shi Xu-Hang,Han Han.Reducing toxicity and enhancing broadband solar energy harvesting of ultra-thin perovskite solar cell via SiO2 nanophotonic structure. OPTIK,2020,223:165624 [21] Liang Hua-Xu,Wang Fu-Qiang*,Cheng Zi-Ming,Shuai Yong,Lin Bo,Pan Yu-Zhai.Performance study on optical splitting film-based spectral splitting concentrated photovoltaic/thermal applications under concentrated solar irradiation.Solar Energy,2020,206:84–91 [20] Yuan Yuan,Lin Xiao-Jie,Cheng Zi-Ming,Wang Fu-Qiang*,Shuai Yong,Tan He-Ping.Experimental investigation of thermal performance enhancement of cavity receiver with bottom surface interior convex. Applied Thermal Engineering,2020,168:114847 [19] Zhang Hao,Shuai Yong*,Yuan Ye,Bachirou Guene–Lougou*,Jiang Bo–Su,Wang Fu-Qiang,Cheng Zi–Ming.Thermal-chemical reaction characteristics of Ni/Al2O3 catalytic porous material filled solar reactor for dry reforming of methane process. Applied Thermal Engineering,2020,180:115901 [18] 王富强,梁华旭*,林波,程子明,史绪航,陈智超.基于时域有限差分法光学设计电介质纳米球薄膜钙钛矿光伏电池.中国石油大学学报(自然科学版),2020,44(6):97–102 ----------------------------------------------------------------------------------------------------------- 2019年 ----------------------------------------------------------------------------------------------------------- [17] Wang Fu–Qiang,Wang Hao,Gong Da–Yang,Cheng Zi–Ming*,Ma Lan–Xin.Radiative transfer analysis of semitransparent medium with particles having non-uniform size distribution by differential-integration method. International Journal of Heat and Mass Transfer,2019,130:342–355 [16] Cheng Zi–Ming,Wang Fu–Qiang*,Wang Hao,Liang Hua–Xu,Ma Lan–Xin.Effect of embedded polydisperse glass microspheres on radiative cooling of a coating. International Journal of Thermal Sciences,2019,140:358–367 [15] Cheng Zi–Ming,Yu Rui–Tian, Wang Fu–Qiang*,Liang Hua–Xu,Xie Ming,Li Dong,Tan Jian–Yu.Coupled heat transfer analyses of molten salt with thermophysical property variation. Heat Transfer Research,2019,50(1):33–56 [14] Liang Hua-Xu,Han Han,Wang Fu-Qiang*,Cheng Zi–Ming,Pan Yu-Zhai,Tan Jian-Yu.Experimental investigation on spectral splitting of photovoltaic/thermal hybrid system with two-axis sun tracking based on SiO2/TiO2 interference thin film. Energy Conversion and Management,2019,188:230–240 [13] Wang Fu–Qiang*,Jing Lin,Cheng Zi–Ming,Liang Hua–Xu,Tan Jian–Yu.Combination of thermodynamic analysis and regression analysis for steam and dry methane reforming. International Journal of Hydrogen Energy,2019,44(30):15795–15810 [12] Xu Hui–Jin,Xing Zhan–Bin,Wang Fu–Qiang*,Cheng Zi–Ming.Review on heat conduction, heat convection, thermal radiation and phase change heat transfer of nanofluids in porous media: Fundamentals and applications. Chemical Engineering Science,2019,195:462–483 --------------------------------------------------------------------------------------------------- 2018年 --------------------------------------------------------------------------------------------------- [11] Cheng Zi–Ming,Wang Fu–Qiang*,Liang Hua–Xu,Hu Sheng–Peng,Lin Bo,Tan Jian–Yu,Li Hong–Yang.Photon-absorption-based explanation of ultrasonic-assisted solar photochemical splitting of water to improve hydrogen production. International Journal of Hydrogen Energy,2018,43(31):14439–14450 [10] Cheng Zi–Ming,Yu Rui–Tian, Wang Fu–Qiang*,Liang Hua–Xu,Lin Bo,Wang Hao,Hu Sheng–Peng,Tan Jian–Yu,Zhu Jie,Yan Yu–Ying.Experimental study on the effects of light intensity on energy conversion efficiency of photo-thermo chemical synergetic catalytic water splitting. Thermal Science,2018,22(S2):S697–S706 [9] Chen Xue,Wang Fu–Qiang*,Han Ya–Fen,Yu Rui–Tian,Cheng Zi–Ming.Thermochemical storage analysis of the dry reforming of methane in foam solar reactor.Energy Conversion and Management,2018,158:489–498 [8] Chen Xue,Wang Fu–Qiang*,Yan Xue–Wei,Han Ya–Fen,Cheng Zi–Ming,Zhu Jie.Thermochemical performance of solar driven CO2 reforming of methane in volumetric reactor with gradual foam structure.Energy,2018,151:545–555. [7] Chen Xue,Wang Fu–Qiang*,Yan Xue–Wei,Cheng Zi–Ming,Han Ya–Fen,Zhu Jie.Thermal and chemical analysis of methane dry reforming in a volumetric reactor under highly concentrated solar radiation.Solar Energy,2018,162:187–195 [6] Wang Fu–Qiang,Jin Hui–Jian,Wang Hao,Cheng Zi–Ming,Tan Jian–Yu*,Yuan Yuan,Shang Yu–Hang,Zhang Wen–Jie.Radiative, conductive and laminar convective coupled heat transfer analysis of molten salts based on finite element method.Applied Thermal Engineering,2018,131:19–29 ------------------------------------------------------------------------------------------------------ 2017年 ------------------------------------------------------------------------------------------------------ [5] Cheng Zi-Ming,Wang Fu-Qiang*,Xie Yin-Mo,Ma Lan-Xin,Xu Hui-Jin,Tan Jian-Yu,Bai Feng-Wu.Investigation of optical properties and radiative transfer of sea water-based nanofluids for photocatalysis with different salt concentrations.International Journal of Hydrogen Energy,2017,42(43):26626–26638 [4] Wang Fu-Qiang,Cheng Zi-Ming,Tan Jian-Yu*,Yuan Yuan,Shuai Yong,Liu Lin-Hua.Progress in concentrated solar power technology with parabolic trough collector system: a comprehensive review.Renewable and Sustainable Energy Reviews,2017,79:1314–1328(导师一作) [3] Wang Fu–Qiang,Cheng Zi-Ming,Tan Jian–Yu*,Zhang Jia-Qi,Leng Yu,Liu Lin-Hua.Energy storage efficiency analyses of CO2 reforming of methane in metal foam solar thermochemical reactor.Applied Thermal Engineering,2017,111:1091–1100(导师一作) [2] Wang Fu-Qiang,Ma Lan-Xin,Cheng Zi-Ming,Tan Jian-Yu*,Huang Xing,Liu Lin-Hua.Radiative heat transfer in solar thermochemical particle reactor: A comprehensive review.Renewable and Sustainable Energy Reviews,2017,73:935–949 [1] Liang Hua-Xu,Wang Fu-Qiang*,Cheng Zi-Ming,Hu Sheng-Peng,Xiao Bing,Gong Xiang-Tao,Lin Bo,Li Xiang-Zheng,Cao Rui-Yang,Liang Wen,Liu Lin-Hua.Analyzing the effects of reaction temperature on photo-thermo chemical synergetic catalytic water splitting under full-spectrum solar irradiation: An experimental and thermodynamic investigation.International Journal of Hydrogen Energy,2017,42(17):12133–12142 专利 专利名称 一种高柔韧抗拉伸的可透气仿生人体皮肤的辐射制冷面料及其制备方法 专利号 ZL 2022 1 0219780.3 发明人 王富强,程子明 申请时间 2022 专利类别 发明 简单介绍 专利名称 一种具有自清洁功能的辐射制冷薄膜及其制备方法 专利号 ZL201810952161.9 发明人 王富强,程子明 申请时间 2018 专利类别 发明 简单介绍 技术转让 专利名称 一种具有自清洁功能的辐射制冷涂层及其制备方法 专利号 ZL201810952183.5 发明人 王富强,程子明 申请时间 2018 专利类别 发明 简单介绍 专利名称 一种基于菲涅尔透镜聚光的室外离线式太阳能光催化反应装置 专利号 ZL201710442304.7 发明人 王富强,程子明 申请时间 2017 专利类别 发明 简单介绍 友情链接 链接名称 太阳能光热利用团队--王富强教授--国家级青年人才 链接地址 http://homepage.hit.edu.cn/wangfuqiang?lang=zh 简单介绍 链接名称 零碳智慧能源--帅永教授---国家高层次人才 链接地址 http://homepage.hit.edu.cn/shuaiyong?lang=zh 简单介绍