郑淞生 照片

郑淞生

副教授

所属大学: 厦门大学

所属学院: 能源学院

邮箱:
songsheng@xmu.edu.cn

个人主页:
https://energy.xmu.edu.cn/info/1519/6868.htm

个人简介

2006-09至2011-06,厦门大学,材料学院材料学系,博士 2009-09至2010-08,挪威科技大学,材料学院冶金学系,访问学者 1994-09至1998-06,哈尔滨工业大学,土木工程学院建筑材料系,本科 现工作单位和任职 厦门大学能源学院,副教授 主持/参加过的项目和成果 至今主持或参加12项项目,包括国家自然科学基金项目、福建省重大科技专项、企业的产业化合作项目等。发表英文学术论文30多篇,申请发明专利34项,其中,已授权17项,另有4项实用新型专利。

研究领域

氨燃料热动力装备与材料技术。具体包括:低温低压合成氨装备与工艺、氨燃烧装备与工艺、耐氨腐蚀材料等。 硅碳材料技术。具体包括:硅冶金、石墨冶金、硅碳电池材料(固态锂电池、陶瓷燃料电池、太阳能电池),如锂电池的硅碳负极材料、氢燃料电池的硅碳离子扩散隔膜和双极板、功能掺杂硅碳。 发光材料技术。具体包括:稀土掺杂无机发光材料,无机量子点发光材料。

近期论文

1.楚育纯; 周 梅; 王兆林*; 陈 锦; 胡晓慧; 郑淞生; 掺氨燃料在四冲程内燃机中的排放特性, 厦门大学学报(自然科学版), 2021, 60(1): 50-57. (期刊论文) 2.周梅; 楚育纯; 王兆林*; 陈锦; 胡晓慧; 郑淞生; 氨-液化石油气混合燃料降碳燃烧的排放特性, 燃烧科学与技术, 2020, 26(3): 257-264. (期刊论文) 3.姚育栋; 王中华; 林志彬; 胡晓慧; 陈锦; 郑淞生; 王兆林*; Pt-Ir共沉积电位对电解氨水制氢的性能影响, 化工学报, 2020, 71(8): 3780-3788. (期刊论文) 4.Zhengqing Fan; Songsheng Zheng; Song He; Yueyuan Ye; Junhua Liang; Aodi Shi; Zhaolin Wang; Zhifeng Zheng; Preparation of micron Si@C anodes for lithium ion battery by recycling the lamellar submicron silicon in the kerf slurry waste from photovoltaic industry. Diamond and Related Materials; 2020:107898. 5.Junhua Liang; Zhengqing Fan; Si Chen; Songsheng Zheng; Zhaolin Wang, A novel three-dimensional cross-linked net structure of submicron Si as high-performance anode for LIBs, Journal of Alloys and Compounds, 2021, 860: 158433(1-9). 6.Ming Wang, Songsheng Zheng, Chufeng Chai, Ziqi Fei, Leiming Zheng, Aodi Shi, Si Chen, Yufeng Zhang, Zhao lin Wang, A novel in-situ process for high performance blue CsPbBr3 perovskite quantum dots via Cs ion-exchange in Sodium Titanium Silicate, Journal of Luminescence, 2021, 232: 117867(1-11). 7.Jiachao Chen; Songsheng Zheng; Xing Yang; Ying Lv; Yang Li; Chao Chen, A blue and Red Bicolor Emission Phosphor Excited by a Single n-UV and Its Self-reduction of Eu3+ → Eu2+ in Na2Al2B2O7, Electronic Materials Letters, 2020, 16(6):1-12. 8.Hongxun Sheng; Wenwen Xiong; Songsheng Zheng; Chao Chen; Song He; Qijin Cheng, Evaluation of the sp3/sp2 ratio of DLC films by RF-PECVD and its quantitative relationship with optical band gap, Carbon Letters, (2020):1-11. 9.李兴盛,胡向然,郑淞生,李钷,王兆林, 基于多晶硅金刚线切割工艺的光伏生命周期分析, 太阳能学报, 2021, online, DOI:10.19912/j.0254-0096.tynxb.2021-0082. 10.郑雷铭;王明;陈思;郑淞生;王兆林;陈源;李钷, 近紫外激发单一基质荧光粉的研究进展, 化工学报,online, DOI: 10.11949/0438-1157.20201795. 11.Ammonia as an environmentally benign energy carrier for the fast growth of China Zhou M, Wang Y,Chu Y,Tang Y,Tian K,Zheng S,Chen J,Wang Z, Energy Procedia (2019) 158 4986-4991 12.Design of energy and materials for ammonia-based extended-range electric vehiclesChu Y,Wu Y,Chen J,Zheng S,Wang Z, Energy Procedia (2019) 158 3064-3069 13.Evaluation of Factors on Removing Boron from Silicon by Slag Refining Under Atmospheric Conditions Cheng H,Zheng S,Chen C,JOM (2019) 71(6) 2120-2127 14.Near ultraviolet excited white light emitting diode (WLED) based on the blue LiCaPO4:Eu2+ phosphor Yang X,Chen J,Chai C,Zheng S,Chen C,Optik (2019) 198 163238 15.Research and development of a compound eye photovoltaic glass for photovoltaic modulesChen J,Yang X,Li Y,Zheng S,Chen C,Optical Engineering (2019) 58(03) 1 16.Single 395 nm excitation warm WLED with a luminous efficiency of 10486 lm/W and a color rendering index of 907 Yang X,Chai C,Chen J,Zheng S,Chen C,Optical Materials Express (2019) 9(11) 4273 17.Ammonia (NH3 ) Storage for Massive PV Electricity Wang Y,Zheng S,Chen J,Wang Z,He S,Energy Procedia (2018) 150 99-105 18.Grain-Size-Controlled Mechanical Properties of Polycrystalline Monolayer MoS2Wu J,Cao P,Zhang Z,Ning F,Zheng S,He J,Zhang Z,Nano Letters (2018) 18(2) 1543-1552 19.Luminescence properties of SrBi2B2O7: Eu3+orange-red phosphor Li Z,Pian Q,Li L,Sun Y,Zheng S,Optik (2018) 161 38-43 20.Microstructure, superelasticity and shape memory effect by stress-induced martensite stabilization in Cu–Al–Mn–Ti shape memory alloys Chen X,Zhang F,Chi M,Yang S,Wang C,Liu X,Zheng S,Materials Science and Engineering B: Solid-State Materials for Advanced Technology (2018) 236-237 10-17 21.The behavior of Ca and its compounds in Si during the slag refining with CaO-SiO2-CaF2 system under air atmosphereCheng H,Zheng S,Chen C,Separation and Purification Technology (2018) 201 60-70 22.Carrier mobility reduction and model in n-type compensated siliconLi S,Gao W,Zheng S,Cheng H,Yang X,Cheng Q,Chen C,Journal of Crystal Growth (2017) 476 50-57 23.Luminescence properties of Sr2MgB2O6:Tb3+,Li+ green-emitting phosphorLI Z,ZHENG S,YANG X,LUO B,LI S,SUN Y,CHENG Q,Journal of Rare Earths (2017) 35(3) 24.Effect of Thermal Annealing on Light-Induced Minority Carrier Lifetime Enhancement in Boron-Doped Czochralski SiliconWang H,Zheng S,Chen C,Chinese Physics Letters (2015) 32(10) 25.Characterization and photoluminescence of Sr2B2O5:Eu3+, Na+ red phosphor Ying L,Zheng S,Zheng J,Cai L,Chen C 26.Light-induced degradation in p-type gallium co-doped solar grade multicrystalline silicon wafers and solar cells Ren X,Cai L,Fan B,Cheng H,Zheng S,Chen C,EPJ Applied Physics (2013) 64(3) 30103-p1-30103-p5 27.The effect of calcium oxide addition on the removal of metal impurities from metallurgical-grade silicon by acid leaching He F,Zheng S,Chen C,Metallurgical and Materials Transactions B: Process Metallurgy and Materials Processing Science (2012) 43(5) 1011-1018 28.Elimination of phosphorus vaporizing from molten silicon at finite reduced pressureZheng S,Safarian J,Seok S,Kim S,Merete T,Luo X,Transactions of Nonferrous Metals Society of China (English Edition) (2011) 21(3) 697-702 29.Numerical simulation of phosphorus removal from silicon by induction vacuum refiningZheng S,Engh T,Tangstad M,Luo X,Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science (2011) 42(8) 2214-2225 30.Separation of Phosphorus from silicon by induction vacuum refining Zheng S,Abel Engh T,Tangstad M,Luo X,See fewer,Separation and Purification Technology (2011) 82(1) 128-137 31.Mass transfer of phosphorus in silicon melts under vacuum induction refiningZheng S,Chen W,Cai J,Li J,Chen C,Luo X,Metallurgical and Materials Transactions B: Process Metallurgy and Materials Processing Science (2010) 41(6) 1268-1273 32.Preparation of YAG:Ce3+ phosphor by sol-gel low temperature combustion method and its luminescent properties YAN X,ZHENG S,YU R,CAI J,XU Z,LIU C,LUO X,Transactions of Nonferrous Metals Society of China (English Edition) (2008) 18(3) 648-653