Matter和Advancedfunctionalmaterials的2021年影响因子可能均在20左右,而AdvancedMaterials的2021年影响因子可能超过32。仅从影响因子的角度,Matter的2021年影响因子未必比AFM有很多优势。仅从影响因子的角度,Matter的2021年影响因子未必比AFM有很多优势。此外,AFM的影响力目前明显比Matter大很多(AFM是Naturelndex期刊,且AFM在2020年发文量~2200篇,是Matter在2020年发文量~200篇的10多倍)。所以,短期内,比较Matter和AFM更有意义。和AM比较,从影响因子和年发文量来看,感觉目前Matter还差一个档次。
Advanced Materials期刊更好些。
Advanced Materials是工程与计算大学科、材料与化学大领域(包含材料化学,材料物理,生物材料,纳米材料,光电材料,金属材料,无机非金属材料,电子材料等等非常多的子学科,以及非常大量与材料相关的研究领域)的顶尖期刊,在国际材料领域科研界上享誉盛名。
广义上分类
从广义上来讲,期刊的分类,可以分为非正式期刊和正式期刊两种。非正式期刊是指通过行政部门审核领取“内部报刊准印证”作为行业内部交流的期刊(一般只限行业内交流不公开发行),但也是合法期刊的一种,一般正式期刊都经历过非正式期刊过程。
正式期刊是由国家新闻出版署与国家科委在商定的数额内审批,并编入“国内统一刊号”,办刊申请比较严格,要有一定的办刊实力,正式期刊有独立的办刊方针。
“国内统一刊号”是“国内统一连续出版物号”的简称,即“CN号”,它是新闻出版行政部门分配给连续出版物的代号。“国际刊号”是“国际标准连续出版物号”的简称,即“ISSN号”,我国大部分期刊都配有“ISSN号”。
影响因子为10.0。
Matter目前已被Web of Science收录。
Matter在2019年共发表158篇publications,其中citable items有95。
影响因子为10.0,2020年尚余2个多月,以平均计,预计Matter在2020的第一个partial impact factor将高于12。
不同学科的期刊数目、平均参考文献数、引证半衰期等都会对期刊的影响因子和总被引频次产生影响,期刊的影响因子和总被引频次均以论文的引证与被引证的数量关系为基础。
一个学科的引文数量,总体水平取决于各学科自身的发展特点,从总体上来说,某学科来源期刊越多,该学科期刊的总被引频次和影响因子就越大。
这两大因素决定了学科影响因子和总被引频次分布的不均衡性,生物学期刊一直是SCI期刊中比较引人注目的一类期刊,在总被引频次和影响因子的数量上也有显著优势,从而说明生物科学在当代科学中所处的重要位置。
在国内外学术期刊发表的主要论文如下:1. Nd-Fe-B (B≤50at.%)三元系相图的研究,《中国科学》A辑,Vol.28, No.10, 1985, p.9092. Phase Diagrams of Nd-Fe-B Ternary System, <>, Vol.29, No.11, 1986, p.11723. 混合自旋 (S=1,1/2)模型具有再次近邻反铁磁相互作用晶格基态,《物理学报》Vol.37, No.10, 1988, 17074. Ising 自旋 (s=1/2)反铁磁超晶格低温热力学,《低温物理学报》 Vol.11, No.3, 1989, p.1795. Ising 自旋 (s=1) 周期超晶格反铁磁基态,《低温物理学报》 Vol.11, No.1, 1989, p.236. Thermodynamics at low temperature of Ising antiferromagnetic superlattices, Chinese Physics (USA), Vol.10, No.4, 1990, p.9887. Temperature dependence of magnetization and paramagnetism of ferromagnetic- antiferromagnetic superlattices, J. Phys. Condens. Matters, Vol.2, No.26, 1990, p.57658. Properties of a superlattice composed of identical ferromagnetic films with antiferromagnetic interfacial coupling, J. Phys. Condens. Matters, Vol.3, No.27, 1991, p.51079. Temperature and field dependence of magnetization of superlattices with antiferromagnetic coupling, Phys. Lett. A, Vol.154, No.7/8, 1991, p.42510. Magnetic properties of a transverse Ising film with s=1/2, J. Phys. Condens. Matters, Vol.4, No.13, 1992, p.365111. Temperature dependence of magnetic susceptibility of antiferromagnetic superlattice, Phys. Lett. A, Vol.168, 1992, p.44312. Magnetic properties of antiferromagnetic superlattices, J. Phys. Condens. Matters, Vol.5, No.21, 1993, p.344313. Phase diagrams of transverse Ising film, Physica A, Vol.193, No.1, 1993, p.13314. Magnetisation and susceptibilities of diluted Ising thin magnetic film in a transverse field, Physica A, Vol.232, No.3, 1996, p.31515. Reflection and transmission by magnetic multilayers, J. Magn. Magn. Materials, Vol.212, No.2, 2000, p.8216. Transmission by antiferromagnetic-nonmagnetic multilayers, J. Phys. Condens. Matters, Vol.11, No.13, 1999, p.269717. –k magnetostatic guided modes in ferromagnetic films, Phys. Lett. A, Vol.196, No.3, 1994, p.28118. Phase diagrams of a diluted Ising thin ferromagnetic film in a transverse field, Phys. Rev. B., Vol.51, No.10, 1995, p.671519. Phase diagrams of a diluted Ising ferromagnetic film with spin-1 in a transverse field, J. Phys. Condens. Matters, Vol.8, No.31, 1996, p.574520. 周期性调制稀释ISING 体系的相变,《物理学报>>,VOL.45, No.12, 1996, p.205421. Effects of eddy currents on retarded modes of antiferromagnets, Phys. Rev. B. Vol.59, 1999, p.3310.22. Magnetostatic waves of metal magnetic/nonmagnetic superlattices, Phys. Rev. B. 61, No.14, 2000, p.9494.23. Magnetostatic modes of a lateral antiferromagnetic/nonmagnetic superlattice, Phys. Rev. B., Vol.55, No.18, 1997, p.12424.24. Magnetostatic modes of antiferromagnet in a magnetic field nonmal to the surface, J. Magn. Magn. Materials, Vol.195, 1999, p.508.25. Magnetostatic surface and guided modes of lateral-magnetic-superlattice films,Phys. Rev. B. Vol.50, No.18 , 1994, p.13472.26. Magnetostatic modes on lateral magnetic superlattices, Phys. Lett. A. Vol.187, 1994, p.325.27. Standing waves in a rectangular magnetic wire, Phys. Lett. A Vol.199, 1995, p.224.28. Magnetostatic modes of lateral magnetic-superlattice films in a transverse field, J. Phys. Condens. Matter, Vol.9, 1997, p.5777.29. Magnetostatic modes of lateral magnetic superlattice in an applied field arbitrary direction, Phys. Rev. B.Vol.55, No.18, 1997, p.12402.30. Reflection and transmission by magnetic multilayers, J. Magn. Magn. Materials Vol.212, 2000, p.82.31. Transmission by antiferromagnetic-nonmagnetic multilayers, J. Phys.Condens. Matter Vol.11, No.13, 1999, p.2697.32. Retarded modes of a lateral antiferromagnetic/nonmagnetic superlattices, Phys. Rev. B. Vol.52, No.18, 1995, p.13353.33. Surface retarded modes of magnetic superlattices with antiferromagnetic coupling, J. Magn. Magn. Materials, Vol.257, No.2, 2003, p.15134. Nonlinear magnetostatic surface waves of magnetic multilayers: Effective- medium theory, Phys. Rev. B. Vol.63, No.5, 2001, p.05441535. Magnetostatic surface waves of lateral-magnetic superlattices, Phys. Lett. A. Vol.255, 1999, p.178.36. Xuan-Zhang Wang and Shu-Fang Fu, Dispersion properties of nonlinear bulk polaritons in uniaxial antiferromagnetic/nonmagnetic superlattices, J. Magn. Magn. Materals, Vol.271, No.2-3, 334(2004).37. Xuan-Zhang Wang and Hua Li, Nonlinear polaritons in antiferromagnetic superlattices, Phys. Rev. B,Vol.72, No.5, 054403 (2005).38. Xuan-Zhang Wang, The Faraday effect of an antiferromagnetic photonic crystal with a defect layer, J. Phys.: Condens. Matters, Vol.17, No.36, 5447 (2005).39. Jing Bai, Sheng Zhou, Feng-Li Liu and Xuan-Zhang Wang, Nonlinear infrared transmission through and reflection off antiferromagnetic films, J. Phys.: Condens. Matters, Vol.19, No.4 046217(2007).40. Rui-Hua Zhu, Cheng Jia and Xuan-Zhang Wang, Magnetostatic modes of a lateral ferromagnetic/ferromagnetic superlattice, Physics Letters A, Vol.355, No.1, 77 (2006)41.类维萍,贾城,王选章,涡流对侧向反铁磁/非磁超晶格中表面推迟模的影响,<<物理学报>> Vol.57 No.1, 535(2008)42.Di Zhang, Jianing Ma, Hua Li, Shu-Fang Fu and Xuan-Zhang Wang, Anti-resonance of electron tunneling through a four-quantum-dot ring with two side-coupled quantum dots, Phys. Lett. A, Vol.372, No.17, 3085 (2008)43. Hong Gao, Zhou mingyu, Ji Hong, Xuan-Zhang Wang and Zhiguo Zhang, Synthesis and photoluminescence of Sb-induced ZnO nanowires along [0-1,1,1] with island attached, J. Alloy and Compounds, Vol.464. 234-237 (2008).44. Hong Gao, Xitian Zhang, Mingyu Zhou, Zhiguo Zhang and Xuan-Zhang Wang, Nanohelices modified by SiO2 sheathed ZnO disks, Nanotechnology Vol.18, 065601(2007)45. Yan Zhao, Hong Gao, Sheng Zhou, Hua Li Xuan-Zhang Wang, Nonlinear Response of Uniaxial Ferromagnets and Applications to Surface Magnetostatic Waves J. Magn. Magn. Materials, Vol.320, No.21, 2560-2567(2008)46. Zhou Sheng and Xuan-Zhang Wang, Method of enhancing second-harmonic generation of antiferromagnetic film, Journal of the Optical Society of America B, Vol.25, No.10, 1639-1644(2008).47. 宋玉玲,王选章, 一维受限反铁磁光子晶体的性质, <<光学学报>> Vol.28 No12 (2008)48. 尹永琦, 李华, 马佳宁, 贺泽龙, 王选章, 多端耦合量子点分子桥的量子输运特性研究, <<物理学报>> Vol.58 No.6, 69(2009).49. Yu-Ling Song, Jing-Xing Ta, Hua Li and Xuan-Zhang Wang, Presence of left-handedness and negative refraction in antiferromagnetic/ionic-crystal multilayered films, J. Appl. Phys. Vol.106, No.6, 063119 (2009).50. Sheng Zhou, Hua Li, Shu-Fang Fu and Xuan-Zhang Wang, Second-Harmonic Generation from an antiferromagnetic film in one-dimension photonic crystals, Phys. Rev. B, Vol.80 No.20, 205409 (2009) (12 pages)51. Jing-xiang Zhao, Yi-hong Ding, Qing-hai Cai, Xiao-guang Wang andXuan-Zhang Wang, Theoretical Studies of the Magnetism of the First-Row Adatom on the Silicon Carbide (SiC) Nanotube, J. Phys. Chemistry C Vol.114, No.9 , 3825-3829 (2010)52. Jin-Xing Ta, Yu-Ling Song and Xuan-Zhang Wang, J. Appl. Phys.Vol.108, No.1 013520(2010)(4 pages)53. Shu Fang Fu, Jing Bai, Sheng Zhou, Xiu Rong Qu, Hua Li, Xuan Zhang Wang, Effects of molecular shape on polymeric liquid crystal, Key Engineering Materials, Vol.428-429, 216-219(2010)54. Jing Bai, Shu Fang Fu and Xuan-zhang Wang, Dispersion properties of bulk polaritons in uniaxial antiferromagnetic film, Key Engineering Materials Vol.428-429, 198-201 (2010)55. Jing Bai, Shu-Fang Fu, Sheng Zhou, Li Niu and Xuan-Zhang Wang, Nonlinear transmission through and reflection off antiferromagnetic sandwich, Materials Science Forum, Vol.663-665 (Optoelectronic materials), 995-998 (2010)56. Jing-Xiang Zhao, Yi-Hong Ding, Qing-Hai Cai, Xiao-Guang Wang, and Xuan-Zhang Wang, Chemical Functionalization of pyridine-like and porphyrin-like nitrogen-doped carbon nanotubes with transition metal atoms: A theoretical study, Theoretical Chemistry Accounts, Vol.127 (5-6), 727-733 (2010)57. Shu-Fang Fu and Xuan-Zhang Wang, Effects of magnetic field on shear stress of nematic liquid crystalline polymer under simple shear flow, Journal of Polymer Science: Part B48: Polymer Physics, Vol.48 (17), 1919-1926 (2010).58. Yu-Ling Song, Jin-Xing Ta and Xuan-Zhang Wang, Band gaps of two-dimensional antiferromagnetic photonic crystal, J. Appl. Phys. Vol.110. No.1 013525-5 (2011).59. Yan Zhao, Shu-Fang Fu and Xuan-Zhang Wang, Bistable transmission of antiferromagnetic Fabry-Perot resonator, J. Appl. Phys. Vol.110. No.3,023512-6 (2011)59. Jing Bai, Shu-Fang Fu, Sheng Zhou and Xuan-Zhang Wang, Reflective optical bi-stability of antiferromagnetic films, The European Physical Journal B83, No.3,343-348(2011)60.Gao Bo, Zhao J-x, Cai Qinghai, Wang Xiaoguang, and Wang Xuan-Zhang, Doping of Calcium in C60 Fullerence for enhancing CO2 capture and N2O Transformation: A Theoretical Study, J. Phys. Chem. A115 (36), 9969-9976(2011)61. Jin-Xiang Zhao, Yi-Hong Ding, Xiao-Gang Wang, Qing-Hai Cai, And Xuan-Zhang Wang, Diamond and Related Materials Vol.20 No.1, 36-41(2011)62. Xuan-Zhang Wang and Hua Li, Nonlinear propagation of electromagnetic waves in antiferromagnets, in Propagation of Electromagnetic Waves in Complex Matter, edited by by Ahmed Kishk, (Intech-Open Access Publisher, 2011)pp.55-96, Ch.363. Zhao J-X, Gao Bo,Cai Qing-Hai, Wang Xiao-Guang, and Wang Xuan-Zhang,Theoretical study of phenol adsorption on the (8, 0) silicon carbide nanotube,Chemistry and Material Science : Theoretical Chemistry Accounts Vol29 No.1, 85-92(2011).64. Dongmei Sun, Shufang Fu, Sheng Zhou and Xuan-Zhang Wang, Numerical simulation of optical bi-stability in antiferromagnetic sandwich structure, J. Magn. Magn. Materials, Vol.324, No.2, pp.183-189 (2012)65. Jin-Xing Ta, Xuan-Zhang Wang, Optical properties of antiferromagnetic/ ion-crystal superlattices, J. Magn. Magn. Materials, Vol.324 No.1, (2012) pp.72-7766. Yu-Ling Song, Jin-Xing Ta and Xuan-Zhang Wang, High second-harmonic generation of antiferromagnetic/ion-crystal composite medium with negative refraction, J. Magn. Magn Materials Vol.324 No.6, 1214-1217 (2012)67. Jin-Xing Ta and Xuan-Zhang Wang, Magneto-phonon polaritons in two-dimensional antiferromagnetic/ion-crystalic photonic crystal, Photonics and nanostructures-Fundamentals and Applications, Vo.l0 No.1 (2012) pp.1-868. Yan Zhao, Shu-Fang Fu and Xuan-Zhang Wang, Nonlinear Far Infrared Transmission of Antiferromagnetic Fabry-Perot Resonator, IEEE Transaction on Magnetics, Vol.48 No.4, 1597-1600(2012)69. 张强,周胜,厉强华,王选章,付淑芳,一维反铁磁光子晶体光学双稳效应研究,《物理学报》 Vol.61, No.15, 157501-7(2012)70. 周胜, 王选章,付淑芳,厉强华,曲秀荣,梁爽,张强,Voigt 位型下电介质/反铁磁体/电介质结构的二次谐波生成非倒易性研究,《物理学报》 Vol.61 No.18, 187501-(2012)71. Shu-Fang Fu, Jing Bai and Xuan-Zhang Wang, Effects of magnetic field on discotic nematic liquid crystalline polymers under simple shear flow, Journal of Applied Polymer Science, (2012)72. Xuan-Zhang Wang, Coupled Edge Plasmon Modes of Metal/Dielectric Multi-Wedges, Chinese Physics B, (2013),accepted for publication73. Xuan-Zhang Wang and Yan Zhao, High Faraday effect of antiferromagnetic/ion- crystal photonic crystals in far infrared region, J. Appl. Phys. (2013), accepted for publication.
不是。1、am期刊涉猎面积广杂志从材料的角度关注能源的研究,涉及广泛的研究范围,涵盖与能源相关的研究,热电,光催化,太阳能技术,磁致冷和压电材料等领域。子刊涉猎内容少只有光催化,太阳能技术。所以子刊没有am期刊好。2、am期刊更具有认可性,子刊发布时间较短。
Advanced Materials期刊更好些。
Advanced Materials是工程与计算大学科、材料与化学大领域(包含材料化学,材料物理,生物材料,纳米材料,光电材料,金属材料,无机非金属材料,电子材料等等非常多的子学科,以及非常大量与材料相关的研究领域)的顶尖期刊,在国际材料领域科研界上享誉盛名。
广义上分类
从广义上来讲,期刊的分类,可以分为非正式期刊和正式期刊两种。非正式期刊是指通过行政部门审核领取“内部报刊准印证”作为行业内部交流的期刊(一般只限行业内交流不公开发行),但也是合法期刊的一种,一般正式期刊都经历过非正式期刊过程。
正式期刊是由国家新闻出版署与国家科委在商定的数额内审批,并编入“国内统一刊号”,办刊申请比较严格,要有一定的办刊实力,正式期刊有独立的办刊方针。
“国内统一刊号”是“国内统一连续出版物号”的简称,即“CN号”,它是新闻出版行政部门分配给连续出版物的代号。“国际刊号”是“国际标准连续出版物号”的简称,即“ISSN号”,我国大部分期刊都配有“ISSN号”。
杂志铺是国内第一家杂志折扣订阅网。主要从事期刊杂志的征订发行和网上订阅服务,目标成为国内最大的中文期刊发行平台。其实杂志铺就是个卖杂志的网站。
不要在杂志铺上订啊。。我订的2021年一年的期刊。月刊类。1月份期刊,要4月份才能收到。。完全是订过期期刊。。别个官网出刊10天内就能发货,而他们杂志铺要等两三个月才发。。而且还不让退!他们客服的回答是,1月份的刊物,他们预计要3月中下旬才能到他们那点,然后再安排发货,估计4月份应该能收货。。!人都气得死。
我订过,马马虎虎吧,发货的比较慢,其它还可以,或者建议去杂志客看看
你好,我发现你问的问题有些偷换概念,有些不清楚。这样吧我给你一一作答杂志铺是国内第一家杂志折扣订阅网,主要从事期刊杂志的征订发行和网上订阅服务。其优势在于一站式的订阅方式超低的价格,100%的快递投送。目已在淘宝商城、QQ商场都设有官方店铺,在QQ钱包开通了杂志订阅频道。杂志发展至今得到了社会各界的认可。《中国国家地理》是关于地理的月刊内容以中国地理为主,兼具世界各地不同区域的自然、人文景观和事件,揭示其背景和奥秘,亦涉及天文,生物,历史和考古等领域。是中国大陆著名的有关地理的杂志。具有很强的独家性和权威性。
用来看杂志超级方便但是可惜功能不够完善。应该再加上书签、收藏之类的小工具。而且,俺不喜欢页面下面的小广告。应该一起推出付费去广告版。恩,大概就是这样。
没看过杂志迷。。。一般都会去买,在电脑上看很伤神。。。不过偶尔还是可以观摩一下,我自己就是上 ,这个网站,中日韩欧美的时尚杂志都有(不过应该算是主打日本杂志),也有男士时尚专区,还有一些生活杂志书籍,像美容啊,家居啊都有,更新也不算慢,自己觉得挺不错的。
有的。杂志迷中文版不仅仅收录了国内的最新杂志,还有日本最新的穿着杂志、韩国的化妆美容杂志、欧美的明星潮流等等,这里的文章全都翻译成可理解的国语,方便用户的阅读。
杂志迷APP是一款非常好用的手机杂志阅读软件,杂志迷APP这里收录了全国海量的杂志资讯,杂志迷APP里面整合了当前时尚潮流的资讯信息,无论是少男少女的穿着打扮还是主流最新的游戏,甚至是每一个女性的美容养颜等等都能在杂志迷APP这里发现。
杂志迷app功能特色
【杂志推介助手】
汇聚前沿品质杂志,推介世界各地的时尚杂志、旅行、电影、女性杂志、男性杂志、娱乐杂志、汽车杂志等各类电子杂志,精彩的“想法”在这里交汇碰撞,让你时刻与世界保持同步。
阅读界面清新简单,碎片化阅读的好帮手,内容让人欣喜,界面干净舒适。把时髦潮流、穿搭资讯、明星爱豆、精彩生活一起送到你身边!