昆明理工大学毕业论文 第1篇
会。但不是全部,硕士大概5%,博士大概10%,算是抽查。
实论文抽查算是新近几年出现的一个事情,万一被抽中,一般有两个流程,论文重新查重3位专家同行评议,同行评议这个和专家主观判断有关,这个不好控制,但论文查重这个很客观,直接用知网系统查一遍就可以了,一旦复制比过高或两位同行评议专家判为不过,将直接将论文定为问题论文,对学位发放单位和个人都有影响,至于影响多大,要看论文问题有多大。
硕士毕业论文上传知网的时候,其前提条件就在于以下两点,一是顺利通过学校知网检测,二是顺利通过答辩。
因此,硕士毕业论文上传知网之后,那么恭喜你,至少已经通过了知网检测,否则是不可能能够取得学校的答辩资格的。
上文汇总:该文是文章重复率查重有关的常见问题,是一份检测相关的解答。
昆明理工大学毕业论文 第2篇
采用知网PMLC本专科论文检测系统。
昆明理工大学是一所以工为主和理工结合和多学科发展的省属重点大学,由云南省人民政府与国家国防科技工业局共建,是国家_特色重点学科项目_实施高校和中西部高校基础能力建设工程重点建设高校和_奖学金来华留学生接收院校。
入选教育部卓越工程师教育培养计划和国家建设高水平大学公派研究生项目和教育部首批新工科研究与实践项目;为首批国家创新人才培养示范基地的六所高校之一,首批全国深化创新创业教育改革示范高校,首批高等学校科技成果转化和技术转移基地。
依托高校建立国家国际技术转移中心的2所高校之一,CDIO工程教育联盟成员单位。
学校创建于1954年,时名昆明工学院;1995年更名为昆明理工大学;1999年原昆明理工大学与原云南工业大学合并组建新的昆明理工大学。2023年12月28日,云南省分析测试中心成建制并入。
昆明理工大学毕业论文 第3篇
1. Fabrication of thermoplastic polyurethane with functionalized MXene towards high mechanical strength, flame-retardant, and smoke suppression properties. Luo Yong, Xie Yuhui, Geng Wei, Dai Guangfu, Sheng Xinxin, Xie Delong*, Wu Hua, Mei Yi*. Journal of Colloid and Interface Science. 2022,606,223-235.
2. Boosting fire safety and mechanical performance of thermoplastic polyurethane by the face-to-face two-dimensional phosphorene/MXene architecture. Luo Yong, Xie Yuhui, Geng Wei, Chu Junhan, Wu Hua, Xie Delong*, Sheng Xinxin*, Mei Yi. Journal of Materials Science & Technology. 2022, 129, 27-39.
3. SWCNT-Encapsulated Phosphorus-Grafted Stearyl Alcohol as a Flame-Retardant Phase-Change Material with Superior Thermal Properties. Li Jun, Chen Renjie, Luo Yong, Shi Jinming, Sheng Xinxin, Xie Yuhui*, Wu Hua, Xie Delong*, Mei Yi. ACS Applied Energy Materials. 2022,5,1869-1882.
4. Preparation and characterization of LiNiCoAlO2 cathode material from (NH4)2C2O4·2H2O precipitant. Feng Dong, Chen Qiduo, Mei Yi, Chen Xinzhi*, Zeng Tianbiao*. Journal of Materials Science, Materials in Electronics. 2022, 1-11.
5. Fabrication of GeP/carbon composites with hedgehog structure towards lithium-ion battery anode. Zeng Tianbiao, Chen Qiduo, Feng Dong*. Materials Letters.2022, 318,132251.
6. Immobilization of GeS2 on exfoliated graphite sheet for high-capacity lithium-ion battery anodes. Feng Dong, Hao Siyu, Liu Qi, Zhu Yuanzhi*, Zeng Tianbiao*. Solid State Ionics.2022, 375.
7. The preparation of stable holey phosphorene. Jiang, Yuncai, Li, Xuemei, Hou, Ranran, Fu, Jiao, Lian, Peichao *. Materials Letters. 2022, 317, 132087.
8. Bimetallic Ni-Zn site anchored in siliceous zeolite framework for synergistically boosting propane dehydrogenation. Huang Chengming, Han Dingmei, Guan Linjie, Zhu Linhua, Mei Yi, He Dedong*, Zu Yun*. Fuel. 2022, 307, 121790.
9. HZSM-5 zeolite cross-linked with ultrathin siliceous layer for intensifying catalytic cracking and diffusion of n-butane. Guan Linjie, Huang Chengming, Han Dingmei, He Binbin, Zhu Linhua, He Dedong, Mei Yi, Zu Yun*. Fuel. 2022, 315, 123252.
10. Reaction pathways of n-butane cracking over the MFI, FER and TON zeolites, Influence of regional differences in Brønsted acid sites. Guan Linjie, Huang Chengming, Han Dingmei, Zhu Linhua, Mei Yi, He Dedong, Zu Yun*. Microporous and Mesoporous Materials. 2022, 330, 111605.
11. Insights into the Role of Protonation in Covalent Triazine Framework-Based Photocatalytic Hydrogen Evolution. Ye Huan, Gong Ning, Cao Yaqi, Fan Xiaobin*, Song Xiancheng, Li Hao, Wang Chi, Mei Yi, Zhu Yuanzhi*. Chemistry of Materials. 2022, 34 (4), 1481-1490.
12. Ultrafast and selective gas transport through highly ordered black phosphorene nanochannels. Yanqi Liu, Bo Jiang, Jiaming Luo, Jing Yang, Peichao Lian, Xinzhi Chen*, Li Ding*, Yi Mei*. Separation and Purification Technology. 2022, 288, 120629.
13. The tailored role of “defect” sites on γ-alumina, a key to yield an efficient methane dry reforming catalyst with superior nickel utilization. Applied Catalysis B, Environmental. Zhang Yiming, Zu Yun, He Dedong*, Liang Jun, Zhu Linhua, Mei Yi, Luo Yongming*. 2022, 121539.
14. A MnOx enhanced atomically dispersed iron–nitrogen–carbon catalyst for the oxygen reduction reaction, Shichao Ding, Zhaoyuan Lyu, Erik Sarnello, Mingjie Xu, Lingzhe Fang, Hangyu Tian, Sam Ellery Karcher, Tao Li, Xiaoqing Pan, John McCloy, Guodong Ding, Qiang Zhang, Qiurong Shi, Dan Du,Jin-Cheng Li*, Xiao Zhang , Yuehe Lin*. J. Mater. Chem. A. 2022, 10, 5981-5989.
15. Fe-N-C nanozyme mediated bioactive paper-3D printing integration technology enables portable detection of lactose in milk, Yunyi Li , Qian Zhang, Xiaoxu Pang , Yunbo Luo , Kunlun Huang , Xiaoyun He , Zhiyi Yao , Jin-Cheng Li* , Nan Cheng*. Sens. Actuators, B. 2022, 368, 132111.
16. 纳米二氧化钛的制备、改性及其在聚合物基复合材料中的应用研究进展. 周毛毛, 蒋阳, 谢于辉*, 谢德龙*, 梅毅. 复合材料学报. 2022, 39, 2089-2105.
17. 有机硅树脂耐高温改性方法及机理研究进展. 代广富, 裴勇兵, 褚俊涵, 罗勇, 谢于辉*, 谢德龙*, 梅毅. 高分子材料科学与工程. 2022, 1-11.
18. 黑磷纳米片对水中双酚A的吸附.何硕, 徐世敏, 王驰, 李凯, 梅毅. 环境化学. 2022, 1-10.
19. 锂离子电池负极材料研究进展.刘琦, 郝思雨, 冯东, 梅毅, 曾天标*. 复合材料学报.2022,39(04),1446-1456.
20. 氟化铝生产副产物-硅渣酸化过程及其动力学. 艾怡君, 李婷婷, 夏举佩. 过程工程学报. 2022, 1, 1-9.
21. 激发剂对钢渣基掺合料性能的影响研究. 梁延秋, 许世斌, 夏举佩, 谭艳霞. 硅酸盐通报. 2022, 2, 572-581.
昆明理工大学毕业论文 第4篇
1. Properties, preparation and application of black phosphorus/phosphorene for energy storage, a review. RenXinling,Lian Peichao*,Xie Delong,Yang Ying,Mei Yi*,Huang Xiangrun,Wang Zirui,Yin Xiting. Journal of Materials Science. 2017, 52(17), 10364-10386.
2. Electrochemical performance of Bi2O2CO3nanosheets as negative electrode material for supercapacitors. Wang Bo,Wang Jingyi,Zhang Yan,Mei Yi*,LianPeichao*. Ceramics International. 2017, 43(12), 9310-9316.
3. N-doped graphene/Bi nanocomposite with excellent electrochemical properties for lithium-ion batteries. ZhangYan, Wang Qian,WangBo,Mei Yi*,LianPeichao*. Ionics. 2017, 23(6), 1407-1415.
4. 二维过渡金属碳化物或碳氮化物在储能领域的应用进展.谢丹艳,张燕,陈江,梅毅*,廉培超*. 化工新型材料. 2017,45(10),23-25,29.
5. 黑磷及黑磷烯在储能领域的应用研究进展.王倩,张燕,王波,沈友琼,梅毅*,廉培超*. 化工新型材料. 2017,45(03),40-42.
6. 湿法烟气脱硝技术现状及发展.杨加强,梅毅*,王驰,龙光花,李帅. 化工进展.2017,36(02), 695-704.
7. 电感耦合等离子体原子发射光谱法测定湿法磷酸中8种元素.龙光花, 梅毅*,杨加强,俞宝根,张文丽. 冶金分析. 2017,37(06), 55-60.
昆明理工大学毕业论文 第5篇
1和确定论文提要,再加进材料,形成全文的概要
论文提要是内容提纲的雏型。一般书和教学参考书都有反映全书内容的提要,以便读者一翻提要就知道书的大概内容。我们写论文也需要先写出论文提要。在执笔前把论文的题目和大标题和小标题列出来,再把选用的材料插进去,就形成了论文内容的提要。
2和原稿纸页数的分配
写好毕业论文的提要之后,要根据论文的内容考虑篇幅的长短,文章的各个部分,大体上要写多少字。如计划写20页原稿纸(每页300字)的论文,考虑序论用1页,本论用17页,结论用1—2页。本论部分再进行分配,如本论共有四项,可以第一项3—4页,第二项用4—5页,第三项3—4页,第四项6—7页。有这样的分配,便于资料的配备和安排,写作能更有计划。毕业论文的长短一般规定为5000—6000字,因为过短,问题很难讲透,而作为毕业论文也不宜过长,这是一般大专和本科学生的理论基础和实践经验所决定的。
3和编写提纲
论文提纲可分为简单提纲和详细提纲两种。简单提纲是高度概括的,只提示论文的要点,如何展开则不涉及。这种提纲虽然简单,但由于它是经过深思熟虑构成的,写作时能顺利进行。没有这种准备,边想边写很难顺利地写下去。
编写要点
编写毕业论文提纲有两种方法:
(二)句子式写法。即以一个能表达完整意思的句子形式把该部分内容概括出来。这种写法具体而明确,别人看了也能明了,但费时费力。毕业论文的提纲编写要交与指导教师阅读,所以,要求采用这种编写方法。
详细提纲举例
详细提纲,是把论文的主要论点和展开部分较为详细地列出来。如果在写作之前准备了详细提纲,那么,执笔时就能更顺利。下面仍以关于培育和完善建筑劳动力市场的思考为例,介绍详细提纲的写法:
昆明理工大学毕业论文 第6篇
1. Efficient removal of SO2from flue gas with phosphate rock sluny and investigation of reaction mechanism. Nie Yunxiang, Li Shuai, Wu Chunjin, Wang Chi, He Dedong*, Mei Yi*. Industrial & Engineering Chemistry Research. 2018,57,15138-15146.
2. Removal of NOx from flue gas using yellow phosphorus and phosphate slurry as adsorbent. Shuai Li, Jiaqiang Yang, Chi Wang, Delong Xie, Yongming Luo, Kai Li, Dedong He*, Yi Mei*. Energy & Fuels. 2018,32,5279-5288.
3. The preparation of holey phosphorene by electrochemical assistance. Honghong Liu, PeichaoLian*, Qian Zhang, YingYang, Yi Mei*. Electrochemistry Communications. 2018, 98, 124-128.
4. A novel application of phosphorene as a flame retardant. Xinlin Ren, Yi Mei*, Peichao Lian*, Delong Xie, Ying Yang. Polymers. 2018, 10 (3), 227.
5. A facile and mild route to synthesize ultralight and flexible 3D functionalized *,Liu Honghong,Li Hua, Zhang Yan, MeYi*. Journal of Porous Materials. 2018, 25 (3), 905-911.
6. Production of phosphorene from black phosphorus via sonication and microwave Co-Assisted aqueous phase exfoliation. Ying Yang, Xinzhi Chen, Peichao Lian, Renjie Chen, Yuxin Liu, Yi Mei*. Chemistry Letters. 2018, 47, 1478-1481.
7. Red phosphorus encapsulated in porous carbon derived from cigarette filter solid waste as a promising anode material for lithium-ion Wang, Peichao Lian*, Bo Wang, Yongwei Tang, Honghong Liu, Yi Mei*. Ionics. 2018, 5, 1-11.
8. A novel application of phosphorene as a flame , Yi Mei*, Peichao Lian*, Delong Xie, Ying Yang, Yongzhao Wang, Zirui Wang. Polymers.2018, 10(3), 227-239.
9. Cr/MCM-41催化剂的制备及其用于丙烷非氧化脱氢反应. 张亚柳, 杨双, 师勉, 梅毅, 罗永明, 何德东*. 分子催化. 2018,32,425-433.
10. 磷烯-石墨烯复合材料的制备及其电化学性能研究.汤永威,王波,刘红红,梅毅*,廉培超*. 磷肥与复肥. 2018,33(08),19-24.
11. 高压均质法制备纳米黑磷研究.王波,汤永威,高进爵,梅毅*,谢德龙,廉培超*.磷肥与复肥. 2018,33(04),23-26.
12. 黑磷的低成本制备研究.王波,汤永威,郭瑞玲,梅毅,廉培超*. 无机盐工业.2018,50(02),29-32.
13. 纳米黑磷制备的研究进展[J].刘红红,陆艳,张文强,梅毅*,廉培超*. 磷肥与复肥. 2018,33(01),26-31.
14. SK静态混合器对工业磷酸脱砷的过程强化研究.任新林,梅毅*,冯梦黎,李柏扬,吕武华,问亚玲,王驰,何德东*. 化工学报. 2018,69(S2), 218-225.
15. 锂离子电池硅-碳负极材料的研究进展.朱瑞,邓卫斌,李军,廉培超,谢德龙*,梅毅*. 化工新型材料. 2018, 46(7), 34-39.
16. 聚磷酸铵的改性研究进展.杨云艳,谢德龙*,梅毅*,罗星,任新林,者加云. 塑料工业. 2018,46(5), 20-24.
17. 碳纳米管/聚氨酯导电复合材料研究进展.邓卫斌,朱瑞,李军,徐堃,谢德龙*,梅毅. 塑料工业. 2018,46(08), 1-7.
18. 有机磷-氮系协同阻燃剂的研究进展及其表征.罗星,谢德龙,梅毅*,杨云艳,郑睿知. 塑料工业. 2018,46(4), 20-25.
昆明理工大学毕业论文 第7篇
1. Enhanced adsorption of aqueous chlorinated aromatic compounds by nitrogen auto-doped biochar produced through pyrolysis of rubber-seed shell. Wang Wei, Wang Zhijuan, Li Kai, Liu Yuxin, Xie Delong, Shan Shaoyun, He Liang*, Mei Yi*. Environmental technology. 2021, 2, 15-25.
2. Adsorption of uremic toxins using biochar for dialysate regeneration. Wang Wei, Wang Zhijuan, Li Kai, Liu Yuxin, Xie Delong, Shan Shaoyun, He Liang*, Mei Yi*. Biomass Conversion and Biorefinery. 2021,3,25-38.
3. Novel low-temperature H2S removal technology by developing yellow phosphorus and phosphate rock slurry as absorbent. Mei Yi, Dai Jinfeng, Wang Xujun, Nie Yunxiang*, He Dedong*. Journal of Hazardous Materials. 2021,413,125386.
4. Covalent Immobilization of Black Phosphorus Quantum Dots on MXene for Enhanced Electrocatalytic Nitrogen Reduction. He Ludong, Wu Ji, Zhu Yuanzhi, Wang Yaming*, Mei Yi*. Industrial & Engineering Chemistry Research. 2021, 60(15), 5443-5450.
5. Facile Synthesis of Holey Phosphorene via Low Temperature Electrochemical Exfoliation for Electrocatalytic Nitrogen Reduction. Ludong He, Qiuju Lu, Ying Yang, Yanqi Liu, Yuanzhi Zhu*, Yi Mei*. Chemistry Select. 2021,6(20),5021-5026.
6. Mutual promotion effect of SO2 and NOx during yellow phosphorus and phosphate rock slurry adsorption process. Nie Yunxiang, Wang Xujun, Dai Jinfeng, Wang Chi, He Dedong*, Mei Yi*. AIChE Journal. 2021,67(8),e17236.
7. Carbon-Supported Single-Atom Catalysts, Carbon-Supported Single Metal Site Catalysts for Electrochemical CO2 Reduction to CO and Beyond. Zhu Yuanzhi, Yang Xiaoxuan, Peng Cheng, Priest Cameron, Mei Yi*, Wu Gang*. Small. 2021, 17(16), 2005148.
8. Heteroatom-Doped Black Phosphorus and Its Application, A Ludong, Lian Peichao, Zhu Yuanzhi, Zhao Junping*, Mei Yi*. Chinese Journal of Chemistry. 2021,39(3),690-700.
9. Amine-Containing Resin for Coating with Excellent Formaldehyde Removal Performance. Xu Dubing, Zhu Rui, Xie Delong, Xie Yuhui*, Wu Hua*, Mei Yi. Industrial & Engineering Chemistry Research. 2021(60),10674-10682.
10. Flame-retardant and form-stable phase change composites based on MXene with high thermostability and thermal conductivity for thermal energy storage. Luo Yong, Xie Yuhui, Jiang Hao, Chen Ying, Zhang Li, Sheng Xinxin*, Xie Delong*, Wu Hua, Mei Yi. Chemical Engineering Journal. 2021,420,130466.
11. A low-density polyethylene composite with phosphorus-nitrogen based flame retardant and multi-walled carbon nanotubes for enhanced electrical conductivity and acceptable flame retardancy. Luo Yong, Xie Yuhui, Chen Renjie, Zheng Ruizhi, Wu Hua, Sheng Xinxin*, Xie Delong*, Mei Yi. Frontiers of Chemical Science and Engineering. 2021, 15,1332-1345.
12. Microwave‐Assisted Confining Flame‐Retardant Polypropylene in Carbon Nanotube Conductive Networks for Improved Electromagnetic Interference Shielding and Flame Retardation. Hu Yanli, Feng Dong*, Xie Yuhui*, Xie Delong. Advanced Engineering Materials. 2021,23,2100024.
13. Boosting solubility performance of supercritical CO2 via ethanol toward fabrication of polyetherimide/carbon fibe composite foam with three-dimensional geometry Dong,Liu Qi,Chen Shuo,Xie Yuhui*,Hu Tianding*.Journal of Applied Polymer Science. 2021, 138(19), 50385.
14. Boosting cyclability performance of the cathode by a polyacrylonitrile-induced conductive carbon surface Dong,Liu Qi,Hu Tianding,Chen Yuan,Zeng Tianbiao*. Ceramics International.2021,47(9), 12706-12715.
15. Confining Nano-GeS2 in Cross-Linked Porous Carbon Networks for High-Performance and Flexible Li-Ion Dong, Liu Qi, Li Zhongming, Zeng Tianbiao*. ACS Applied Energy Materials. 2021, 4(6), 6096-6105.
16. Study on the Electrochemical Features of Carbon-Coated GeS2 and GeSe2 Anodes toward Application in Sodium-Ion Dong, Liu Qi, Sun Fasen, Wu Feng, Zeng Tianbiao*. Energy & Fuels. 2021, 35(16), 13499-13505.
17. Polyacrylonitrile gel polymer electrolyte as separator in boosting Li-ion storage performance of GeSe2. Feng Dong, Hao Siyu, Liu Qi, Zeng Tianbiao*.Ceramics International.2021,47(19).
18. Boosting cyclability performance of GeP anode via in-situ generation of free expansion volume. Zeng Tianbiao, Feng Dong*, Liu Qi, Hao Siyu, Zhou Ruoyu. Journal of Alloys and Compounds.2021,883.
19. A facile and mild route for the preparation of holey phosphorene by low-temperature electrochemical exfoliation. Jiang, Y., Hou, R., Lian, P*. Fu, J., Lu, Q., Mei, Y. Electrochemistry Communications, 2021,128, 107074.
20. Deep removal of thiophene and benzothiophene in low-sulfur fuels over the efficient CeAlSBA-15 adsorbent synthesized by sequential alumination and cerium incorporation. Zu Yun*, Guan Linjie, Guo Zhongsen, Huang Chengming, He Dedong*, Mei Yi. Chemical Engineering Journal. 2021, 416,127984.
21. A palladium doped 1T-phase molybdenum disulfide–black phosphorene two-dimensional van der Waals heterostructure for visible-light enhanced electrocatalytic hydrogen evolution. Song, X., Li, B., Peng, W., Wang, C., Li, K., Zhu, Y.*, Mei, Y. Nanoscale, 2021, 13(11), 5892-5900.
22. Low-temperature dry reforming of methane tuned by chemical speciations of active sites on the SiO2 and γ-Al2O3 supported Ni and Ni-Ce catalysts. Zhang, Y., Zeng, R., Zu, Y.*, Zhu, L., Mei, Y., Luo, Y., He, D*. Chinese Journal of Chemical Engineering. 2021.
23. Single-Atomic Site Catalyst with Heme Enzymes-Like Active Sites for Electrochemical Sensing of Hydrogen Peroxide, Shichao Ding, Zhaoyuan Lyu, Lingzhe Fang, Tao Li, Wenlei Zhu, Suiqiong Li, Xin Li, Jin-Cheng Li*, Dan Du*, Yuehe Lin*. Small. 2021,17, 2100664.
24. An Ion-Imprinting Derived Strategy to Synthesize Single-Atom Iron Electrocatalysts for Oxygen Reduction, Shichao Ding, Zhaoyuan Lyu, Hong Zhong, Dong Liu, Erik Sarnello , Lingzhe Fang, Mingjie Xu, Mark H. Engelhard, Hangyu Tian, Tao Li, Xiaoqing Pan, Scott P. Beckman, Shuo Feng, Dan Du, Jin-Cheng Li* , Minhua Shao , Yuehe Lin*. Small. 2021,16, 2004454.
25. Ionothermal-Transformation Strategy to Synthesize Hierarchically Tubular Porous Single-Iron-Atom Catalysts for High-Performance Zinc–Air Batteries, Jin-Cheng Li *, Yu Meng , Ruixue Ma, Hao Hu , Shiyong Zhao , Yuanzhi Zhu* , Peng-Xiang Hou , Chang Liu. ACS Appl. Mater. Interfaces.2021,49, 58576-58584.
26. Dual-Phasic Carbon with Co Single Atoms and Nanoparticles as a Bifunctional Oxygen Electrocatalyst for Rechargeable Zn–Air Batteries, Jin-Cheng Li*, Yu Meng, Lili Zhang, Guanzhou Li, Zhicong Shi, Peng-Xiang Hou , Chang Liu*, Hui‐Ming Cheng , Minhua Shao*. Adv. Funct. Mater. 2021,42, 2103360.
27. Highly Dispersive Cerium Atoms on Carbon Nanowires as Oxygen Reduction Reaction Electrocatalysts for Zn–Air Batteries, Jin-Cheng Li*, Xueping Qin, Fei Xiao, Caihong Liang , Mingjie Xu , Yu Meng , Erik Sarnello , Lingzhe Fang , Tao Li, Shichao Ding , Zhaoyuan Lyu , Shangqian Zhu, Xiaoqing Pan, Peng-Xiang Hou, Chang Liu*, Yuehe Lin*, Minhua Shao*. Nano Lett. 2021,10, 4508-4515.
28. Cheng, Fluorination-assisted preparation of self-supporting single-atom Fe-N-doped single-wall carbon nanotube film as bifunctional oxygen electrode for rechargeable Zn-Air batteries, Yu Meng, Jin-Cheng Li, Shi-Yong Zhao, Chao Shi, Xiao-Qi Li, Lili Zhang*, Peng-Xiang Hou*, Chang Liu*, Hui-Ming Cheng. Appl. Catal., B.2021,294, 120239.
29. Recent Advances in Electrocatalysts for Proton Exchange Membrane Fuel Cells and Alkaline Membrane Fuel Cells, Fei Xiao, Yu-Cheng Wang, Zhi-Peng Wu, Guangyu Chen, Fei Yang, Shangqian Zhu, Kumar Siddharth, Zhijie Kong, Aolin Lu, Jin-Cheng Li, Chuan-Jian Zhong*, Zhi-You Zhou*, Minhua Shao*. Adv. Mater. 2021,33, 2006292.
30. 纳米黑磷阻燃聚丙烯及对力学性能的影响.李永翔,尹思浩,谢于辉,梅玉立,谢德龙*,梅毅*. 复合材料学报.2021, 1-12.
31. 还原氧化石墨烯气凝胶/二十烷相变材料的制备及性能. 李军, 陈人杰, 谢德龙, 谢于辉*, 朱远蹠*, 梅毅. 精细化工. 2021,38,947-953.
32. 金属锂二次电池负极的研究进展. 李冲, 谢德龙, 谢于辉, 朱远蹠*, 吴华, 梅毅. 现代化工. 2021,41,48-51,56.
33. 磷氮协同本征阻燃剂的制备及其阻燃丙烯酸酯的研究. 姜豪, 朱苗苗, 朱远蹠*, 谢于辉, 谢德龙, 梅毅. 现代化工. 2021,41,,81-85,91.
34. 低维黑磷的制备及其在光催化降解领域的应用研究进展.梁一尊,葛艳清,王驰*,李凯,梅毅. 化工进展. 2021,40(02),845-858.
35. 药物在碳基材料上的共吸附和竞争吸持动力学.王远珍,何硕,王驰*. 环境化学. 2021,40(08),2576-2585.
36. 纳米黑磷的改性及其在光催化析氢领域的应用.何硕,徐世敏,王驰*,李凯,梅毅. 化学通报. 2021,84(07),662-668,661.
37. 纳米黑磷应用在阻燃领域的研究进展.蒋运才,付姣,李雪梅,曹昌蝶,梅毅,廉培超*. 磷肥与复肥. 2021,36(12),20-26.
38. 化学气相沉积法制备二维材料研究进展. 蒋运才,曹昌蝶,刘岚君,李光能,廉培超*. 化工新型材料. 2021,49(11),59-62.
39. 磷系阻燃电池材料的研究进展.李雪梅,卢晓敏,蒋运才,曹昌蝶,梅毅,廉培超*. 磷肥与复肥. 2021,36(10),38-42.
40. 石墨烯/黑磷烯复合材料的溶剂热法制备及其储钠性能研究[J].卢晓敏,李雪梅,张倩,曹昌蝶,梅毅,廉培超*. 磷肥与复肥. 2021,36(09),32-37.
41. 黑磷的液相法制备研究进展.卢晓敏,李雪梅,刘岚君,沈晓芳,梅毅,廉培超*. 无机盐工业.2022,54(03),31-37.
42. 黑磷的制备及储能应用研究进展.蒋运才,李雪梅,吴兆贤,曹昌蝶,梅毅,廉培超*. 无机盐工业. 2021,53(06),59-71.
43. 黑磷量子点的低温电化学辅助制备及稳定性研究.付姣,卢秋菊,曹昌蝶,梅毅,廉培超*. 化工新型材料. 2022,50(04),137-141+147.
44. 刘成龙,周莉莉,夏举佩*,李浩林,辜芳.基于响应曲面法高效浸出煤矸石中钛的工艺优化. 矿产综合利用. 2021,6,59-65.
45. 魏兴,郑光亚,何宣志,张志远,张云开,夏举佩*.磷石膏复合胶凝材料的制备及胶结过程研究. 现代化工. 2021,41(09),101-106.
46. 张锐横,郑光亚,魏兴,许世斌,夏举佩*.醇-无氯盐体系磷石膏制备α-半水石膏的研究. 非金属矿. 2021,44(01),16-19.
47. 曾德恢,郑光亚,李浩林,刘奎,海类游,夏举佩*,刘成龙.模拟煤矸石酸溶液制备聚合硫酸铝铁实验研究. 煤炭转化. 2021,44(01),89-96.
48. 李浩林,曾德恢,郑光亚,夏举佩*.低温中和-加压酸浸提取煤矸石中铝铁.化工进展. 2021,40(07),4011-4020.
昆明理工大学毕业论文 第8篇
1. Effect of a Ce promoter on nonoxidative dehydrogenation of propane over the commercial Cr/Al2O3catalyst. Zhang Yaliu, Yang Shuang, Lu Jichang, Mei Yi, He Dedong*, Luo Yongming. Industrial & Engineering Chemistry Research.2019, 58, 19818-19824.
2. Facile synthesis of an air-stable 3D reduced graphene oxide-phosphorene composite by sonication, Honghong Liu, Peichao Lian*, Yongwei Tang, Xinlin Ren, Qain Zhang, Yi Mei*. Applied Surface Science. 2019. 476. 972-981.
3. Synergistic effect of ammonium polyphosphate and a-zirconium phosphate in flame-retardant poly(vinyl alcohol) aerogels. Yong Luo, Delong Xie, Yifan Chen, Tao Han, Renjie Chen, Xinxin Sheng, Yi Mei*. Polymer Degradation and Stability. 2019, 170,109019.
4. Excellent air and water stability of two-dimensional black phosphorene/MXene heterostructure. Hua Li, Peichao Lian*, Qiuju Lu, Jicai Chen, Ranran Hou, Yi Mei*. Materials Research Express. 2019, 6, 065504.
5. Fabrication and application of black phosphorene/graphene composite material as a flame retardant. Xinlin Ren, Yi Mei*, Peichao Lian*, Delong Xie, Weibin Deng, Yaling Wen, Yong Luo. Polymers. 2019, 11, 193.
6. Review on applications of black phosphorus in catalysis. Ludong He, Peichao Lian*, Yuanzhi Zhu, Qiuju Lu, Chi Wang, Yi Mei*. Journal of Nanoscience and Nanotechnology. 2019, 19, 5361-5374.
7. 黑磷制备及其在阻燃领域的应用研究进展.尹思浩,任新林,廉培超,吴际,梅毅*. 磷肥与复肥. 2019,34 (9), 48-52.
8. 高纯黑磷的低成本宏量制备研究.卢秋菊,汤永威,赵俊平,侯冉冉,梅毅,廉培超*.磷肥与复肥.2019,34(09), 43-47.
9. 黑磷基储钠负极材料的研究进展.张倩,赵震霆,刘岚君,张文强,梅毅*,廉培超*. 磷肥与复肥. 2019,34(09),34-39.
10. 聚磷酸铵的应用研究进展. 者加云, 罗勇, 谢德龙, 何德东*, 梅毅, 陈人杰. 塑料工业. 2019,49,1-5.
11. Ⅱ型聚磷酸铵的改性及其阻燃聚丙烯的研究进展. 罗勇, 谢德龙, 者加云, 何德东*,梅毅.塑料工业. 2019,47,6-12.
12. 碳包覆的磷/石墨烯复合材料的制备及其储锂性能研究.汤永威,王倩,刘红红,李华,梅毅*,廉培超*. 化工新型材料. 2019,47(10),119-124.
13. 高纯黑磷的低成本宏量制备研究.卢秋菊,汤永威,赵俊平,侯冉冉,梅毅*,廉培超*. 磷肥与复肥. 2019,34(09),43-47.
