化学与化工学院-谢会东导师介绍
谢会东
教授
硕士生导师
男
化学与化工学院
发光材料,能源材料,催化材料
175313490@qq.com
谢会东,教授,化学与化工学院“多尺度能源转化功能材料”强基创新团队负责人,先进材料与器件导师团队负责人,学院学术带头人,陕西省化学会理事。博士期间师从沈德忠院士从事人工晶体生长研究。现阶段致力于功能材料的制备和应用。曾做为访问学者在The Pennsylvania State University TR Shrout教授工作组进行研究工作。主持厅局级以上项目8项,企业项目3项,发表学术论文120余篇,其中以一作或通讯身份在AICHE J, Adv Funct Mater, Laser Photonics Rev, Adv Opt Mater, Inorg Chem, ACS Photonics, ACS Appl Mater Inter, J Eur Ceram Soc等期刊上发表SCI论文70余篇。授权专利7项(含美国专利1项)。此外,担任Adv Mater, Adv Opt Mater, Chem Eng J, ACS Appl Mater Inter等期刊审稿人。邀请主旨国际报告1次,并获最佳报告奖。
Dr. Xie Huidong is currently a professor in the School of Chemistry and Chemical Engineering, Xi'an University of Architecture and Technology. He obtained his doctoral and bachelor's degrees from Tsinghua University in July 2007 and July 1996, respectively. His research focuses on the chemical synthesis and catalytic performance of inorganic materials.
教育背景:
1. 2002.09-2007.07:清华大学,化学博士;导师:沈德忠院士
2.1991.09-1996.07:清华大学,物理化学学士。
工作经历:
1. 2007.08-今,担任西安建筑科技大学理学院、化学与化工学院, 化学专业教师,历任讲师、副教授、教授
2. 2010.07 至 2013.07, 西安建筑科技大学博士后, 合作导师:王晓昌教授
3. 2009.04 至 2009.10, The Pennsylvania State University, Materials Research Institute访问学者, 合作导师:T.R. Shrout教授
2 1996.07 - 2002.08, 机械部第四设计院, 涂装所, 助理工程师
社会兼职:2022.06-今 陕西省化学会理事
展开更多
科研项目
1. 陕西时玖昌环保工程有限公司, 天然气集输系统管道焊缝缓蚀剂的配方设计与工艺优化, 20240365, 2024年6月-2027年5月,在研,主持;
2. 华清农业开发有限公司, 重度盐碱地钙基调理剂产品研发, 20240303, 2024年06月-2027年05月, 在研,主持;
3. 西安市科学家+工程师队伍建设项目, 新型抗菌钛铜合金及其产业化关键技术研发, 2024JH-KGDW-00, 2024.7-2027.6, 在研,主持;
4. 陕西时玖昌环保工程有限公司,“LED灯用钙钛矿量子点材料的工艺设计与研发”, 编号:20220295,起止年月:2022.06-2025.05,在研,主持;
5. 陕西省自然科学基础研究基金面上项目,“双钙钛矿型荧光粉的能量传递机理与性能调控”,编号:2018JM2022,起止年月:2018.01-2019.12,结题;
6. 陕西省自然科学基础研究基金面上项目,“卤化氧铋的控制合成及其对难降解有机物的降解”,编号:2014JM2-5056,起止年月:2015.01-2016.12,结题;
7. 中国博士后基金特别资助项目,“铌酸锶铋的控制合成和光催化活性增强机理研究”,编号:2012T50801,起止年月:2012.05-2013.07,结题;
8. 中国博士后基金面上资助项目,“铋层状化合物的合成和可见光催化活性的研究”,编号:20100481324,起止年月:2011.01-2012.12,结题。
展开更多
研究成果
近三年发表论文,*为通讯作者:
[1]. Fu Wang, Kangkang Wang, Qiyu Zhao, Zuobin Tang, Binbin Su, Jiaren Du*, Hu Liu, Huidong Xie*, Triple-mode Luminescence and Versatile Applications of 0D Manganese-based Hybrid Halides, Adv Opt Mater, 2025, 202403234.
[2]. Yuheng Zhang, Gangyi Zhang*, Liying Zhu, Yaxuan Li, Tongshu Zhang, Fulong Hao, Lingyi Meng, Huidong Xie, Hu Liu, Zuobin Tang*, Blue-Excited Broadband Near-Infrared Emission from Zero-Dimensional Organic-Inorganic Hybrid Metal Halides, Journal of Colloid And Interface Science, 2025, 686, 37-44.
[3]. Kang Chen, Huidong Xie*, Hanyu Yang, Guoping Han, Jingxuan Chen, Hu Liu. Construction of crystalline/amorphous heterostructures to enhance the supercapacitor performance of a high-entropy sulfide. J Alloy Compd, 2025, 1015, 178921.
[4]. Lingjun Pei, Xiaoyu Liu, Xihong He, Wenfeng Li, Dongfeng Sun, Huidong Xie*, Hu Liu*. Copper-based High-entropy Oxide Aerogel for Chemoselective Hydrogenation Reaction. AIChE J. 2025, e18748.
[5]. 杨凯悦,李亚娇,王娜,谢会东,章亮,杨厂,葛成敏,Fe-Sm掺杂对Ce-Cu脱碳催化剂耐SO2性能的促进,复合材料学报,2025
[6]. Yibo Wang, Yajuan Zhao, Yaqian Gao, Lingyi Meng, Hu Liu, Huidong Xie*, Solvothermal synthesis of ternary metal-organic framework electrode material for high-performance hybrid supercapacitors, J Mater Sci: Mater Electron, 2025, 36, 94
[7]. Feng Zuo, Huidong Xie*, Changyu Hu, Kang Chen, Hanyu Yang, Kangkang Wang, Guoping Han*, Hu Liu. Preparation of multi-shelled ZnMn2O4 hollow spheres@Ni(OH)2 nanosheets for high-performance hybrid supercapacitors, Appl Surf Sci, 2025, 686, 162170.
[8]. Zhiteng Wang, Qiyong Chen, Huidong Xie, Xiaolong Feng, Yachao Du, Tianxiang Zhou, Rui Li, Junqi Zhang, Lu Zhang, Zhuo Xu, Lili Xi, Qingwen Tian,* Shengzhong (Frank) Liu* Light-Driven Dynamic Defect-Passivation for Efficient Inorganic Perovskite Solar Cells. Adv. Funct. Mater. 2024, 2416118
[9]. Qianqian Zhao, Wenqi Xia, Longsheng Du, Feng Du, Zhihua Leng, Huidong Xie, Zuobin Tang. Unlocking Chlorine Oxide-Based Ultra-Wideband Near-Infrared Phosphor and Advancing Spectral Performance via Lattice Engineering. Adv Funct Mater, 2024, 202408177
[10]. XueQian Li, ShaoLei Xie, HuiDong Xie, MengQi Shen, ZhenHui Ma, Hu Liu. Exploring Biomedical Applications with Silver and Copper Nanotechnology. CMat, 2024, 1(2): e20
[11]. 高雅倩,赵亚娟,谢会东*,胡昌宇,王逸博,王康康,杨厂. 高比电容MOF衍生的介孔球状Co3O4/NiO/CuO. 材料导报, 2024, 38(12): 22110033。
[12]. Ruiqing Zhang, Huidong Xie*, Fu Wang, Qiyu Zhao, Lingyi Meng, Zuobin Tang, Binbin Su, Hu Liu*. Near-Infrared and Cyan Dual-Band Emission Copper Iodide Based Halides with [Cu6I9]3− Cluster. Laser Photonics Rev, 2024, 202400450
[13]. Feng Zuo, Huidong Xie*, Jiamin Gao, Kang Chen, Hanyu Yang, Kangkang Wang, Lingyi Meng, Hu Liu. Structural modulation of multi-layer hollow microspheres ZnMn2O4 and their application in supercapacitors. Appl Surf Sci, 2024, 29, 160395
[14]. Fu Wang, Huidong Xie*, Qiyu Zhao, Yibo Wang, Lingyi Meng, Hu Liu. Micromechanical chemical synthesis of two tin-based organic-inorganic hybrid perovskites for high color rendering index solid-state lighting. Opt Mater, 2024, 152, 115563.
[15]. Ge Mu, Huidong Xie*, Yanfei Jian, Zeyu Jiang, Lu Li, Mingjiao Tian, Liang Zhang, Jingjing Wang, Shouning Chai*, Chi He. Facile construction and enhanced catalytic activity of Co-Mn oxide with rich amorphous/crystalline interfaces for propane oxidation, Separation and Purification Technology, 2024, 26, 127699
[16]. Jiamin Gao, Huidong Xie*, Feng Zuo, Kang Chen, Hu Liu, Chang Yang. Zn2+ doped Ni3(NO3)2(OH)4 nanoflower spheres for electrochemical applications. Inorganic Chemistry Communs, 163 (2024) 112372.
[17]. Xiaoying Zhao, Ruoyan Miao, Tianze Xu, Xiaolong Du, Xueyan Zhang, Wanyu Zhao, Huidong Xie, Liang Zhang*, Jianzheng He*, Zhenhui Ma*, Hu Liu*. Changing Cinnamaldehyde Skeleton Achieves Antibacterial Nanoswitch. ACS Appl Mater Inter, 2024, 16, 14, 17838-17845.
[18]. Lingjun Pei, Shaolei Xie, Hui Guo, Xueqian Li, Huidong Xie, Zuobin Tang, Guanghui Han, Zhonghong Xia, Menggang Li, Hu Liu. Ultrathin porous PdPtNi nanosheets as efficient electrocatalysts for alcohol oxidation reactions. Chemical Engineering Journal, 2024, 483, 149113.
[19]. Liu X, Xie HD*, Mu G, He PW, Wang KK, Yang C, Chai SN. Preparation of high catalytic active Mn-La0.5/TiO2 denitration catalyst by in situ deposition method. Catal Lett, 2024, 154: 899-909.
[20]. Changyu Hu, Huidong Xie*, Yibo Wang, Hu Liu, Yajuan Zhao, Chang Yang. MOF-derived NiAl2O4/NiCo2O4 porous materials as supercapacitors with high electrochemical performance. Phys Chem Chem Phys, 2024, 26, 6616-6626.
[21]. Feng Zuo, Huidong Xie*, Jiamin Gao, Kang Chen, Hu Liu, Yajuan Zhao, Chang Yang. Spinel-structured hollow nanospheres prepared by a soft-template solvothermal method for high-performance supercapacitors, J Mater Sci: Mater Electron, 2024, 35, 416.
[22]. Jiamin Gao, Huidong Xie*, Feng Zuo, Hu Liu, Yajuan Zhao, Chang Yang. Carbon quantum dots modified and Y3+ doped Ni3(NO3)2(OH)4 nanospheres with excellent battery-like supercapacitor performance. Chemistry-A European Journal, 2024, 30(20): e202400170.
[23]. Yang Liu, Na Wang, Huidong Xie, Yepeng Sun, Kaiyue Yang, Liang Zhang, Chang Yang, Chengmin Ge. Promotion of SO2 resistance of Ce–La/TiO2 denitrification catalysts by V doping. RSC Adv., 2024, 14, 2264-2276.
[24]. Qian Lei, Ruoyan Miao, Xueqian Li, Xiaoyu Liu , Yuanyuan Li, Zhangwei He, Huidong Xie, Fang Song, Xiang Liu, Hu Liu. Efficient hydrogen production from formic acid over Ag@AgPd nanotriangulars at room temperature. Fuel, 355 (2024) 129539.
[25]. Ruiqing Zhang, Huidong Xie*, Qiyu Zhao, Zuobin Tang, Chang Yang, Binbin Su. Zero-dimensional hybrid antimony chloride with near-unity broad-band orange-red emission toward solid-state lighting. Inorg Chem, 2023, 62, 19771-19779.
[26]. Liu W, Xie HD*, Cai WT, Zhang RQ, Xu B, Yang C. Rapid Synthesis of Two Photoluminescent Pyridinium Manganese-based Halides by an Anti-Solvent Method. J Alloy Compd, 2023, 968, 172173.
[27]. Wang Y, Xie HD*, Liu H, Mu G, Yang C, Chai SN. La and Co Addition to Mn/TiO2 Catalysts for Enhancing LowTemperature Denitrification Activity and H2O/SO2 Tolerance, Ind Eng Chem Res, 2023, 62, 44, 18303-18311.
[28]. Zhang RQ, Xie HD*, Liu W, Zhan K, Liu H, Tang ZB, Yang C. High-Efficiency Narrow-Band Green Emitting Manganese(II) Halide for Multifunctional Applications, ACS Appl Mater Inter, 2023, 15, 40, 47238-47249.
[29]. Guo XL, Xie HD*, Cai WT, Wang F, Xu B, Yang C. Preparation of ultrastable and highly luminescent CsPbBr3 quantum dots by a synergistic internal and external strategy of ligand modification and silica coating, J Phys Chem C, 2023, 127, 22139-22148.
[30]. Wang ZT, Tian QW, Zhang H, Xie HD, Du YC, Liu L, Feng XL, Najar A, Ren XD, Liu, SZ Frank. Managing Multiple Halide-Related Defects for Efficient and Stable Inorganic Perovskite Solar Cells. Angew Chem Int Edit, 2023, 62(30), e202305815
[31]. Sha Q, Xie HD*, Zhang ZR, Yang C, Zhao RX, Ge CM. Removal of fluoride by biochar from watermelon rind - an efficient application in groundwater treatment. Desalin Water Treat, 2023, 302, 104-120.
[32]. Guo XL, Xie HD*, Tang ZB, Wang KK, Yang C. Crystal growth and photoeletric properties of dimethylammonium doped CsPbBr3. Cryst Res Technol, 2023, 58(7), 2300046.
[33]. Tang ZB, Du F, Zhao L, Liu H, Leng ZH, Xie HD, Zhang GY, Wang YH. Single-Site Occupancy of Eu2+ in Multiple Cations Enables Efficient Ultra-Broadband Visible to Near-Infrared Luminescence. Laser & Photonics Reviews. 2023, 17(5), 2200911.
[34]. 党璞, 赵亚娟, 谢会东*, 王康康, 赵儒霞. CuNiFe LDHs/BiO2-x异质结可见光活化过硫酸盐降解环丙沙星. 环境科学, 2023, 44(10), 266-276.
[35]. Yang DW, Ma HL, Li JQ, Fang HJ*, Xie HD*. Sunscreen-inspired ZnO/PEG composites for flexible ultraviolet photodetector with a giant on-off ratio. ACS Photonics, 2023 10 (5), 1320-1327.
[36]. Lin J, Du YL, Ma XX, Li YT, Xie HD, Qi YB, Zhang SJ. Choline chloride/urea etched carbon fiber to improve the elasticity of biomass-based carbon aerogel for efficient oil-water separation, Colloid Surface A, 2023, 669, 131506.
[37]. Liu W, Xie HD*, Guo XL, Wang KK, Yang C, Wang N, Ge CM. Luminescence, stability and applications of CsPbBr3 quantum dot/PMMA composites prepared by a solvent and ligand free ball milling method. Opt Mater, 2023, 136: 113398.
[38]. Xie HD*, He PW, Chen C, Yang C, Chai SN, Wang N, Ge CM. Enhanced water and sulfur resistance by Sm3+ modification of Ce-Mn/TiO2 for NH3-SCR. Catal Lett, 2023, 153: 850-862.
[39]. Tang ZB, Du F, Leng ZH, Xie HD, Li YY, Zhao L. Seeking new, ultra-narrow-band blue emitting phosphors with high color purity for wide color gamut displays. J Rare Earth, 2023, 41(12), 1876-1882.
[40]. Sha Q, Xie HD*, Liu W, Yang DW, He YY, Yang C, Wang N, Ge CM. Removal of fluoride using platanus acerifoli leaves biochar - an efficient and low-cost application in wastewater treatment. Environ Technol, 2023, 44(1):93-107.
[41]. Wang N, Wang L, Xie HD, Liu Y, Sun YP, Yang C, Ge CM. Preparation of high temperature NH3-SCR catalysts with carbonate as precursors by ball milling method. RSC Adv, 2022, 12: 35094-35102.
[42]. Zhao YJ, Dang P, Gao YQ, Li Y, Xie HD*, Yang C. Double Z-scheme Co3O4/Bi4O7/Bi2O3 composite activated peroxymonosulfate to efficiently degrade tetracycline under visible light. Environ Sci Pollut Res, 2022, 29:79184-79198.
[43]. Xie HD*, Chen C, He PW, Mu G, Wang KK, Yang C, Chai SN, Wang N, Ge CM. Promoting H2O/SO2 resistance of Ce-Mn/TiO2 nanostructures by Sb5+/Sb3+ addition for selective catalytic reduction of NO with NH3. Appl Surf Sci, 2022, 600:154146/1-15.
[44]. Dang P, Xie HD*, Gao YQ, Li Y, Zhao YJ, Yang C. Ag/AgCl/BiO2-x activated persulfate to degrade rhodamine B under visible light. J Mater Sci: Mater Electron, 2022, 33:5776-5789.
[45]. Zhang SJ, Lin J, Chen SL, Xie HD, Qi YB. Selective recovery of Ag(I) from effluent using 2,5-dimercapto-1,3,4-thiadiazole modified apple pomace. Sustainable Chemistry and Pharmacy, 2022, 26, 100621.
[46]. Tang ZB, Du F, Liu H, Leng ZH, Sun XQ, Xie HD, Que MD, Wang YH. Eu2+-Doped Layered Double Borate Phosphor with Ultrawide Near-Infrared Spectral Distribution in Response to Ultraviolet-Blue Light Excitation. Adv Opt Mater, 2022, 2102204
[47]. Chen C, Xie H D*, He P W, Liu X, Yang C, Wang N, Ge C M. Comparison of low-temperature catalytic activity and H2O/SO2 resistance of the Ce-Mn/TiO2 NH3-SCR catalysts prepared by the reverse co-precipitation, co-precipitation and impregnation method. Appl Surf Sci, 2022, 571, 151285/1-12.
[48]. Wang N*, Ye C F, Xie H D*, Wang L, Zheng B, He Y Y, Yang C, Zhou J H, Ge C M. High-temperature vanadium free catalyst for selective catalytic reduction of NO with NH3 and theoretical study of La2O3 over CeO2/TiO2, Catal Sci Technol,2021, 11, 6112-6125.
[49]. Wang N*, Ye C F, Xie H D*, Yang C, Zhou J H, Ge C M. Enhanced high-temperature arsenic resistance of CeO2-La2O3/TiO2 catalyst by Fe2O3 for selective catalytic reduction of NOx with NH3, RSC Adv, 2021, 11, 9395-9402.
[50]. Li F, Huang S, Liu X Y, Bai Z L, Wang Z T, Xie H D, Bai X D, Zhong H Z*. Highly stable and spectrally tunable gamma phase RbxCs1-xPbI3 gradient-alloyed quantum dots in PMMA matrix through A sites engineering. Adv Funct Mater, 2021, 2008211/1-6.
[51]. Wang Z T, Fu R, Li F*, Xie H D*, He P W, Sha Q, Tang Z B, Wang N, Zhong H Z. One-step polymeric melting encapsulation method to prepare CsPbBr3 perovskite quantum dots/polymethyl methacrylate composite with high performance. Adv Funct Mater, 2021, 2010009/1-9.
[52].Wang Z T, Liu N, Xie, H D*, Li J, Zhao Y J, Wang N. Synthesis and Visible Light Photocatalytic Activity of Brookite/BiOBr. Bulletin of Materials Science, 2021, 44:123/1-8
展开更多
学校介绍
西安建筑科技大学坐落在历史文化名城西安,南眺驰名中外的唐代大雁塔,北临举世闻名的明代长安城墙。学校总占地4300余亩,校园环境优美,办学氛围浓郁。学校办学历史源远流长,其办学历史最早可追溯到始建于1895年的北洋大学,积淀了我国近代高等教育史上最早的一批土木、建筑、环境类学科精华。1956年,在全国第三次高等学校院系调整时由原东北工学院、西北工学院、青岛工学院和苏南工业专科学校的土木、建筑、环境类系(科)整建制合并而成,时名西安建筑工程学院。1959年和1963年,曾先后易名为西安冶金学院、西安冶金建筑学院。1994年3月8日,经国家教委批准,更名为西安建筑科技大学,是公认的中国最具影响力的土木建筑类院校之一及原冶金部重点大学。
西安建筑科技大学继承和发扬了百余年来所形成的专业优势,经过并校50余年来历代建大师生的不懈拼搏,现已发展成为了一所具有深厚文化底蕴,浓郁学术氛围,优美校园环境,并在国内外享有较高声誉的,以土木、建筑、环境、材料学科为特色,工程学科为主体,兼有文、理、经、管、艺、法等学科的多科性大学。学校现有16个院(系),60个本科专业面向全国第一批招生,有权招收保送生,实行本硕连读。除建筑学、城市规划和景观学三个专业为五年学制外,其它本科专业均为四年制,建筑学、城市规划、土木工程、环境工程、建筑环境与设备工程、工程管理、材料科学与工程、给水排水工程、艺术设计9个专业为国家级特色专业。建筑学、城市规划、土木工程、建筑环境与设备工程、环境工程、工程管理、交通工程、给水排水工程、环境科学、冶金工程、材料科学与工程、信息管理与信息系统、艺术设计、社会体育(体育建筑管理)、会计学等15个本科专业为陕西省特色专业。学校现有国家高等学校教学指导委员会成员18人。
学校现有教职工2600余名,其中,中国工程院院士4人,中国科学院院士1人,南非科学院院士1人,具有高级职称的教师、工程技术人员及研究人员近800名,形成了一支阵容整齐、结构合理、素质优秀、实力雄厚的师资队伍。目前,学校在校各类学生近40000人,其中本科生20000余人,研究生近6000人,职业技术学院、继续教育学院在册学生近14000人。
西安建筑科技大学是国务院首批批准有权授予博士、硕士和学士学位的单位。学校设立研究生院,现有一级学科博士点7个、二级学科博士点31个,一级学科硕士点25个、二级学科硕士点94个,硕士点基本涵盖学校所有本科专业。学校拥有建筑学、土木工程、环境科学与工程、材料科学与工程、城乡规划学、风景园林学和管理科学与工程7个博士后流动站,结构工程、环境工程、建筑设计及其理论三个学科为国家级重点学科。
半个多世纪以来,西安建筑科技大学铸就了“传承文明、创造未来、育材兴国、科技富民”的办学宗旨,形成了“自强、笃实、求源、创新”的校训和“为人诚实、基础扎实、作风朴实、工作踏实”的优良校风,先后为国家培养了21万余名德才兼备的栋梁之才,研发了大量高水平的科研成果,为国家经济社会建设和行业发展做出了突出的贡献。
近年来,学校以“提高教育教学质量求生存、狠抓学科建设上水平、优化资源配置求效益、深化体制改革促发展”为办学思路,全面实施校园建设工程、教育教学质量工程、学科建设工程、人才队伍建设工程、创新工程、文化建设工程等六大奠基工程,使得学校步入了和谐快速发展的道路,学校综合办学实力大大增强,相继实现了院士、国家重点学科、一级学科博士点、博士后流动站与博士点数、硕士点数、学校综合排名、校园面积、年经费到款额等衡量学校办学层次重要指标零的突破或翻番。学校顺利入选教育部首批“卓越工程师教育培养计划”实施学校、全国64所“研究生专业学位教育综合试点单位”、“国家高水平大学公派研究生项目平台和优秀本科生国际交流项目实施院校”,荣获全国50所“工程硕士教育创新院校”和全国60所“毕业生就业典型经验高校”。2011年,学校被中共中央授予“全国先进基层党组织”荣誉称号。
“十二五”期间,学校将乘科教兴国、西部大开发的春风,全面贯彻落实《国家中长期教育改革和发展规划纲要(2010-2020年)》和《陕西省贯彻<国家中长期教育改革和发展纲要(2010-2020年)>实施意见》,坚持“传承文明、开创未来、育材兴国、科技富民”的办学宗旨,坚持“提高教育教学质量求生存,狠抓学科建设上水平,优化资源配置求效益,深化体制改革促发展”的总体发展思路,抢抓机遇,迎难而上,振奋精神,开拓进取,努力创建特色鲜明的国际知名国内高水平大学。
展开更多
西安建筑科技大学2014年研究生学费及奖助学金政策
学校从2008年开始面向统招硕士、博士实行研究生奖助学金政策。对于在入学考试中综合成绩优秀的学生,学校按照一定的比例,给予免去学费一半或全部的学业奖学金。此外,统招研究生还可参加优秀奖学金的评定,按照学位层次及评定等级的不同,可享受100元/月至400元/月不等的优秀奖学金。同时学校还设有金诚信奖学金、长江精工钢构奖学金、宝钢奖学金、西飞铝业建筑奖(助)学基金、高科集团·天地源奖学金、海螺奖学金等数十项社会企业奖学金。并设有研究生“三助”、研究生优秀论文奖等。
展开更多