《心理咨理论与实践》《中国心理学前沿》都是比较好发的心理学期刊,比较适合学生或者课题结项,差不多15天可以出审稿结果,编辑部邮箱:,如果把握不准,可以先邮件联系咨询下
1、《教育前沿》,是湖南师范大学主办,中国教育学会教育管理分会协办的教育类期刊,记得是分理论版和综合版。审稿周期相对较短,《现代教育科学》;2、“小学教师”和“中学教师”两个版,是省部级的,因为《现代教育科学》的理论版是中文核心期刊,所以审核的周期会相对长一些吧,投稿要看杂志定位的,成人向的、少年向的。
呵呵,很高兴认识你对于心理学的期刊的话,一般级别都比较高,如果是想往省部级期刊上发表的话,我可给你推荐几个我曾经投过的期刊杂志。1.《教育前沿》,是湖南师范大学主办,中国教育学会教育管理分会协办的教育类期刊,记得是分理论版和综合版。审稿周期相对较短,可以去试试。2.《现代教育科学》的“小学教师”和“中学教师”两个版,是省部级的,因为《现代教育科学》的理论版是中文核心期刊,所以审核的周期会相对长一些吧。3.《新课程研究》,这个你也可以考虑一下,这个的字数要求在5000字左右吧,也是分不同的版,你可以去试一试这些都是省部级的期刊,相对用稿的几率会大些,当然你自己的文章也要过硬才行,数据不能造假,要科学严谨。但是这些期刊的“影响因子”是不受关注的。再给你推荐几个水平相对较高的,但是你也可以去试一试的期刊。1.《中小学心理健康教育》,这个是民进主办的,而且紧抓中小学学生心理问题,你可以去试一试2.《校园心理》,这个是需要推荐信的,而且需要递交纸质版本的稿件进行审稿。无论在哪个级别上发表论文,都要保证论文的质量,而且不要盲目,不要被CSSCI、SCI、CSCD等这样的级别所吓倒,相信自己。在作论文之前,先把自己的基础知识搞的扎实些,不要在文中出现硬伤,而且对文献的引用也要注意,在成文后,至少自己要读3遍以上,并且找相关的朋友、同事阅读提些意见,进行修改,努力做到科学严谨,文章表意清楚,观点明确,这样被用稿的可能也会加大。祝福你,希望你的第一篇论文可以早日发表,加油。
教育科学期刊级别为核心期刊,出刊周期为双月刊,期刊创办于1985年。教育科学是辽宁省教育厅主管、辽宁师范大学主办的学术性期刊。
教育科学主要栏目设有:教育基本理论研究、课程与教学研究、教育管理研究、教师教育研究、高等教育研究、学前教育研究、职业技术教育研究、比较教育研究。
教育科学已被CSSCI南大核心期刊(含扩展版)、上海图书馆馆藏、北大核心期刊(中国人文社会科学核心期刊)、知网收录(中)、国家图书馆馆藏维普收录(中)、万方收录(中)收录。
期刊名称:《教育科学(全文版)电子刊》
期刊级别:国家级
主管单位:科技部西南信息中心
主办单位:重庆维普资讯有限公司
国际刊号(ISSN):1671-5551
国内刊号(CN):50-9207/G
发行周期:月刊
期刊收录:维普
主要栏目:理论前沿,教材教法,教学经验,教学案例,教学设计,教学管理,考试评价,大学教育,中学教育,小学教育,幼教教育等。
期刊影响因子排名如下:
今年共有近13000本期刊获得影响因子,其中60%以上的期刊IF实现了上涨。
影响因子最高的仍然是Ca-A Cancer Journal for Clinicians,但今年下跌较多,由降至。
国产期刊影响因子最高的是Cell Research,最新IF为,重回国刊榜首。
Nature和Science分别为:和。IF上涨(绝对值)最多的是Lancet,由增长至。
期刊影响因子(Impact factor,IF),是代表期刊影响大小的一项定量指标。也就是某刊平均每篇论文的被引用数,它实际上是某刊在某年被全部源刊物引证该刊前两年发表论文的次数,与该刊前两年所发表的全部源论文数之比。
k 为某年, Nk-1+Nk-2 为该刊在k-1年与k-2发表的论文数量总数, nk-1 和nk-2 该刊在 k 年的被引用数量。也就是说,某刊在2005年的影响因子是其2004和2003两年刊载的论文在2005年的被引总数除以该刊在2004和2003这两年的载文总数(可引论文)。
儿科药学杂志目前是统计源核心期刊,根据知网统计显示,杂志2022年最新影响因情况为:复合影响因子:,综合影响因子:,杂志影响因子分值不是很高,没有超过1分,说明期刊发表文献被引用频次不是很高。
2022亚洲社会药学杂志的影响因子是。根据相关报导显示今年社会药学杂志公布最新影响因子为。NEJM、TheLancet、JAMA、BMJ,四本综合性医学杂志,是我们统称的四大医学期刊,也是公认的历史最为悠久、顶级的综合性临床期刊。
1、《教育前沿》,是湖南师范大学主办,中国教育学会教育管理分会协办的教育类期刊,记得是分理论版和综合版。审稿周期相对较短,《现代教育科学》;2、“小学教师”和“中学教师”两个版,是省部级的,因为《现代教育科学》的理论版是中文核心期刊,所以审核的周期会相对长一些吧,投稿要看杂志定位的,成人向的、少年向的。
呵呵,很高兴认识你对于心理学的期刊的话,一般级别都比较高,如果是想往省部级期刊上发表的话,我可给你推荐几个我曾经投过的期刊杂志。1.《教育前沿》,是湖南师范大学主办,中国教育学会教育管理分会协办的教育类期刊,记得是分理论版和综合版。审稿周期相对较短,可以去试试。2.《现代教育科学》的“小学教师”和“中学教师”两个版,是省部级的,因为《现代教育科学》的理论版是中文核心期刊,所以审核的周期会相对长一些吧。3.《新课程研究》,这个你也可以考虑一下,这个的字数要求在5000字左右吧,也是分不同的版,你可以去试一试这些都是省部级的期刊,相对用稿的几率会大些,当然你自己的文章也要过硬才行,数据不能造假,要科学严谨。但是这些期刊的“影响因子”是不受关注的。再给你推荐几个水平相对较高的,但是你也可以去试一试的期刊。1.《中小学心理健康教育》,这个是民进主办的,而且紧抓中小学学生心理问题,你可以去试一试2.《校园心理》,这个是需要推荐信的,而且需要递交纸质版本的稿件进行审稿。无论在哪个级别上发表论文,都要保证论文的质量,而且不要盲目,不要被CSSCI、SCI、CSCD等这样的级别所吓倒,相信自己。在作论文之前,先把自己的基础知识搞的扎实些,不要在文中出现硬伤,而且对文献的引用也要注意,在成文后,至少自己要读3遍以上,并且找相关的朋友、同事阅读提些意见,进行修改,努力做到科学严谨,文章表意清楚,观点明确,这样被用稿的可能也会加大。祝福你,希望你的第一篇论文可以早日发表,加油。
影响因子(Impact Factor,IF)是汤森路透(Thomson Reuters)出品的期刊引证报告(Journal Citation Reports,JCR)中的一项数据。
即某期刊前两年发表的论文在该报告年份(JCR year)中被引用总次数除以该期刊在这两年内发表的论文总数。这是一个国际上通行的期刊评价指标。
影响因子现已成为国际上通用的期刊评价指标,它不仅是一种测度期刊有用性和显示度的指标,而且也是测度期刊的学术水平,乃至论文质量的重要指标。影响因子是一个相对统计量。影响因子并非一个最客观的评价期刊影响力的标准。
扩展资料
影响因子虽然可在一定程度上表征其学术质量的优劣,但影响因子与学术质量间并非呈线性正比关系,比如不能说影响因子为的期刊一定优于影响因子为的期刊,影响因子不具有这种对学术质量进行精确定量评价的功能。
国内部分科研机构,在进行科研绩效考评时常以累计影响因子或单篇影响因子达到多少作为量化标准,有的研究人员可能因影响因子差分而不能晋升职称或评定奖金等,这种做法绝对是不可取的。
参考资料来源:百度百科-影响因子
期刊影响因子是一个相对数目。目前国内影响因子最高的是。
补充资料: 影响因子是期刊影响力的一种计算方法,即某期刊前两年发表的论文在统计当年的被引用总次数除以该期刊在前两年内发表的论文总数。影响因子指标是相对统计值,可克服大小期刊由于载文量不同所带来的偏差。一般来说,影响因子越大,其学术影响力也越大。一般来说影响因子高,期刊的影响力就越大。但影响因子的判断也不是绝对客观的。不同专业对应的期刊杂志的影响因子差别很大,综合类的和专业类的期刊影响因子差别也非常大。比如说,一个综合类的期刊,因是大类,因为研究的领域广所以引用率也比较高,影响因子就高;而比较小类的冷僻的专业,因为研究的人本来就少,被引用率就低。
近五年作为通讯作者,共发表了研究论文200余篇,其中被SCI收录180余篇,主要发表在国际著名的Adv. Funct. Mater.、Chem: .、Chem. Commun.、J. Mater. Chem.、 J. Phys. Chem. B、J. Phys. Chem. C、J. Comput. Chem.、Inorg. Chem.、Appl. Catal. B、Nanotechnology、J. Phys.: Condensed Matter等学术期刊上,影响因子在以上的论文有50余篇,其中影响因子在以上8篇。成果被SCI收录期刊正面引用1400余次。出版专著两部,美国科学出版社邀请为纳米科学技术大百科全书撰写了完整的一章。申请发明专利14项。已发表和已录用的主要论文清单如下(以下均为SCI期刊收录论文,*代表通讯联系人)·Pan Qing-Jiang,Guo Yuan-Ru,Li Li,Fu Hong-Gang*,and Zhang Hong-Xing “Structures,Spectroscopic Properties and Redox Potentials of Quaterpyridyl Ru(Ⅱ) Photosensitizer and its Derivatives for Solar Energy Cell: A Density Functional Study” Physical Chemistry Chemical Physics 2011,DOI:.·Gao Xiao-Qin,Pan Qing-Jiang,Li Li,Guo Yuan-Ru,Zhang Hong-Xing,Fu Hong-Gang* “Structures and Spectroscopic Properties of Ruthenium Phenanthroline Solar-Cell Sensitizers: A Computational Study” Chemical Physics Letters,2011,506,146-151.·Zhou W,Sun FF,Pan K,Tian GH,Fu HG*. Well-ordered large-pore mesoporous anatase TiO2 with remarkably high thermal stability and improved crystallinity: Preparation,characterization and photocatalytic performance. Advanced Functional Materials,2011,21,1922-1930..·Jiang Baojiang,Tian CG,Fu Honggang*,et al. In-Situ Growth of TiO2 in Interlayers of Expanded Graphite for the Fabrication of TiO2-Graphene with Enhanced Photocatalytic Activity. Chemistry-A European Journal,2011,Accepted,.· Li Sun,Chungui Tian,Lei Wang,Jinlong Zou,Guang Mu,Honggang Fu*,Magnetically Separable Porous Graphitic Carbon with Large Surface Area as Excellent Adsorbents for Metal Ions and Dye. Journal of Materials Chemistry,2011,2011,21,7232-7239.· Zhao H,Yang J,Wang L,Tian CG,Jiang BJ,Fu HG*. Fabrication of palladium nanoparticles/graphene nanosheets hybrid via sacrifice of copper template and its application in catalytic oxidation of formic acid. Chemical Communications,2011,47,2014-2016.· Yang J,Tian CG,Wang L,Fu HG*. An effective strategy to small-sized and high-dispersed palladium nano particles supported on graphene with excellent performance for formic acid oxidation. Journal of Materials Chemistry,2011,21,3384-3390.· Tian GH,Chen YJ,Zhou W,Ren ZY,Tian CG,Fu HG*. Facile solvothermal synthesis of hierarchical flower-like Bi2MoO6 hollow spheres as high performance visible-light driven photocatalysts. Journal of Materials Chemistry,2011,21,887 – 892.· Hu ZF,Shen PK*,Fu HG*,et al. Oxygen Reduction Electrocatalysis Enhanced by Nanosized Cubic Vanadium Carbide. Electrochemistry Communications,2011,Accepted,ELECOM 3881.· Tian Guohui,Chen Yajie,Zhou Wei,Pan Kai,Huang Xu-ri and Fu Honggang *,3D hierarchical flower-like TiO2 nanostructure: morphology control and its photocatalytic property. CrstEngComm,2011,13,2994.· Dong Youzhen,Pan Kai,Zhou Wei,Pan Qingjiang,Xie Tengfeng,Wang Dejun,Fu Honggang*,Dye-sensitized solar cells based on TiO2-B nanobelt/TiO2 nanoparticle sandwich-type photoelectrodes with controllable nanobelt length. Dalton Transactions,2011,40,3808–3814.· Cai ZC,Tian CG,Wang L,Zhou W,Wang BL,Fu HG*. One-pot synthesis of silver particle aggregation as highly active SERS substrate. Journal of Raman Spectroscopy,2011,1,5-11.· Tian CG,Li W,Fu HG*,et al. Glucose-mediated solution-solid route for easy synthesis of Ag/ZnO particles with superior photocatalytic activity and photostability,Journal of Alloys and Compounds,2011,509,6935-6941.· Tian CG,Li W,Fu HG*,et al. Controllable Fabrication of Various ZnO Micro/nanostructures from a Wire-like Zn-EG-AC Precursor via a Facile Solution-based Route,Materials Research Bulletin,2011,MRB5116.· Zhao H,Fu HG,Tian CG,et shape-controlled synthesis of palladium nanostructures on copper for promising Surface-enhanced Raman scattering,MATERIALS LETTERS,2010,64,2255-2257· Zhao H,Fu HG,Tian CG,et al. Fabrication of silver nanoparticles/single-walled carbon nanotubes composite for surface-enhanced Raman scattering,JOURNAL OF COLLOID AND INTERFACE SCIENCE,2010,351,343-347.· Jiang BJ,Tian CG,Fu HG*,et al. Facile Fabrication of High Quality Graphene from Expandable Graphite: Simultaneous Exfoliation and Reduction. Chemical Communication. 2010,46,4920 - 4922.· Feng SS,Ren ZY,Fu HG*,et al. Synthesis and application of hollow magnetic graphitic carbon microspheres with/without TiO2 nanoparticle layer on the surface. Chemical Communication. 2010,46,6276-6278.· Liu Y,Ren ZY,Fu HG*,et al. Synthesis and applications of graphite carbon sphere with uniformly distributed magnetic Fe3O4 nanoparticles (MGCSs) and MGCS@Ag,MGCS@TiO2. Journal of Material Chemistry 2010,20,4802- 4808.· Wang L,Tian CG,Fu HG*,et al. Mass production of graphene via an in situ self-generating template route and its promoted activity as electrocatalytic support for methanol electroxidization. Journal of Physical Chemistry C 2010,114 (19),8727–8733.· Qu Y,Zhou W,Fu HG*,et al. Hierarchical anatase TiO2 porous nanopillars with high crystallinity and controlled length: An effective candidate for dye-sensitized solar-cells. Physical Chemistry Chemical Physics 2010,12,9205 - 9212.· Wang BL,Tian CG,Fu HG,et al. Chitosan: a green carbon source for the synthesis of graphitic nanocarbon,tungsten carbide and graphitic nanocarbon/tungsten carbide composites. Nanotechnology 21 (2010) 025606 (9pp).· Li YJ,LV RJ,Fu HG*,et al. Fabrication and evaluation of chiral monolithic column modified by β-cyclodextrin derivatives. Talanta 80 (2010) 1378–1382· Zhou W,Pan K,Fu HG*,et al. Photodegradation of organic contamination in wastewaters by bondingTiO2/single-walled carbon nanotube composites with enhanced photocatalytic activity. Chemosphere 81 (2010) 555–561.· Guohui Tian,Chen Yajie,Pan Kai,Fu Honggang*,Efficient visible light-induced degradation of phenol on N-doped anatase TiO2 with large surface area and high crystallinity. Applied Surface Science 2010,256,3740-3745.· Tian CG,Li W,Fu HG*,et al. One-pot Synthesis of the Ag Nanoparticles modified ZnO Microspheres in Ethylene Glycol Medium and Their Enhanced Photocatalytic Performance. Journal of Solid State Chemistry,2010,183,2720-2725.· Zhou W,Pan K,Fu HG*,et al. The sandwich structure electrodes based on wire-likeTiO2–β-cyclodextrin–SWCNT composite for dye-sensitized solar cells. Journal of Photochemistry and Photobiology A: Chemistry 2009,207,306–310.· Tian XQ,Wan LJ,Fu HG*,et al. Facile synthesis of mesoporous ZnAl2O4 thin films through the evaporation-induced self-assembly method. Journal of Alloys and Compounds 2009,488,320–324.· Wang RH,Tian CG,Fu HG*,et al. In situ simultaneous synthesis of WC/graphitic carbon nanocomposite as a highly efficient catalyst support for DMFCw. Chemical Communication 2009,3104-3106.· Pan QJ,Fu HG*,Zhang HX*,et al. Theoretical Studies on Metal−Metal Interaction,Excited States,and Spectroscopic Properties of Binuclear Au−Au,Au−Rh,and Rh−Rh Complexes with Diphosphine Ligands: Buildup of Complexity from Monomers to Dimers. Inorganic Chemistry,2009,48,2844–2854.· Zhou W,Pan K,Fu HG*,et al. Solar-induced Self-assembly of TiO2-β-cyclodextrin-MWCNT Composite Wires. Physical Chemistry Chemical Physics 2009,11,1713-1718.· Kang CH,Jing LQ*,Fu HG*,et al. Mesoporous SiO2-Modified Nanocrystalline TiO2 with High Anatase Thermal Stability and Large Surface Area as Efficient Photocatalyst. Journal of Physical Chemistry C 2009,113,1006–1013.· Wang BL,Tian CG,Fu HG*,et al. A simple and large-scale strategy for the preparation of Ag nanoparticles supported on resin-derived carbon and their antibacterial properties. Nanotechnology 2009,20,025603(7pp)· Tian GH,Fu HG*,Jing LQ,et al. Synthesis and photocatalytic activity of stable nanocrystalline TiO2 with high crystallinity and large surface area. Journal of Hazardous Materials 2009,161,1122-1130.· Zhang GX,Yu HT*,Fu HG,et al. First-principles calculations of the stability and electronic properties of the PbTiO3 (110) polar surface. Journal of Computational Chemistry 2009,30,1785-1798.· Tian GH,Pan K,Fu HG*,et al. Enhanced photocatalytic activity of S-doped TiO2-ZrO2 nanoparticles under visible-light irradiation. Journal of Hazardous Materials 2009,166,939-944.· Pan K,Dong YZ,Fu HG*,et al. TiO2-B narrow nanobelt/TiO2 nanoparticle composite photoelectrode for dye-sensitized solar cells. Electrochimica Acta 2009,54,7350-7356.· Kan K,Fu HG,Shi KY*,et al. Amidation of single-walled carbon nanotubes by a hydrothermal process for the electrooxidation of nitric oxide. Nanotechnology 2009,20,185502 (7pp).· Wang L,Tian CG,Fu HG*,et al. Controllable Synthesis of Graphitic Carbon Nanostructures from Ion-Exchange Resin-Iron Complex via Solid-State Pyrolysis Process. Chemical Communication 2008,5411-5413.· Zhou W,Fu HG*,Pan K,et al. Mesoporous TiO2/α-Fe2O3: Bifunctional Composites for Effective Elimination of Arsenite Contamination through Simultaneous Photocatalytic Oxidation and Adsorption. Journal of Physical Chemistry C 2008,112,19584-19589.· Liu KS,Fu HG*,Xie Y,et al. Assembly of β-Cyclodextrins Acting as Molecular Bricks onto the Multiwall Carbon of Physical Chemistry C 2008,112,951-957.· Tian GH,Fu HG*,Jing LQ,et al. Preparation and Characterization of Stable Biphase TiO2 Photocatalyst with High Crystallinity,Large Surface Area and Enhanced Photoactivity. Journal of Physical Chemistry C 2008,112,3083-3089.· Zhou W,Liu KS,Fu HG*,et al. Multi-modal mesoporous TiO2–ZrO2 composites with high photocatalytic activity and hydrophilicity. Nanotechnology 2008,19,035610(7pp).· Pan QJ,Zhou X,Fu HG*,et al,“Isovalent Gold(I),-(Ⅱ),and -(Ⅲ) and Mixed-Valent Gold(I)/Gold(Ⅲ) Phosphorus Ylide Complexes. Combined ab Initio and Density Functional Study of Electronic Structures and Spectroscopic Properties” Organometallics 2008,27,2474–2482.· Wan LJ,Fu HG*,Shi KY,et al. Facile synthesis of ordered nanocrystalline alumina thin films with tunable mesopore structures. Microporous and Mesoporous Materials 2008,115(3),301-307.· Pan QJ,Zhou X,Fu HG*,et al. A theoretical probe on the ground- and excited-state properties of heterobinuclear Au–Pt complex with phosphine ligands. Comparison with analogous homobinuclear Au–Au and Pt–Pt complexes. Chemical Physics Letters 2008,453,7-12.· Jing LQ*,Li SD,Fu HG*,et al. Investigation on the electron transfer between anatase and rutile in nano-sized TiO2 by means of surface photovoltage technique and its effects on the photocatalytic activity. Solar Energy Materials & Solar Cells 2008,92,1030– 1036.· Wan LJ,Fu HG*,Shi KY,et al. Facile synthesis of iron oxide with wormlike morphology and their application in water treatment. Journal of Solid State Chemistry 2008,181(4),735-740.· Chi YJ,Fu HG*,Qi LH,et al. Preparation and photoelectric performance of ITO/TiO2/CdS composite thin films. Journal of Photochemistry and Photobiology A: Chemistry 2008,195(2-3),357-363.· Xie Y,Yu HT,Fu HG*,et al. Lattice dynamics investigation on different transition behaviors of cubic BaTiO3 and SrTiO3 by first-principles calculatoins. J. Phys.: Condens. Matter,2008,20,215215 (8pp)· Wan LJ,Fu HG*,Shi KY,et al. Simple synthesis of mesoporous alumina thin Letters 2008,62(10-11),1525-1527.· Song S,Jing LQ*,Fu HG*,et al. Superhydrophilic anatase TiO2 film with the micro- and nanometer-scale hierarchical surface structure. Materials Letters 2008,62,3503–3505.· Zhu YJ,Yuan FL*,Fu HG,et al. Direct NO decomposition over La2-xBaxNiO4 catalysts containing BaCO3 phase. Appl. Catal B-Environ 2008,82,255-263.· Li MX,Zhang HX*,Fu HG,et al. Theoretical Studies of Electronic Structuresand Spectroscopic Properties of Ru Complexes. Inorg. Chem 2008 47(7),2312-2324.· Xie Y,Yu HT,Fu HG*,A First-Principles Investigation of Stability and Structural Properties of the BaTiO3 (110) Polar Surface. Journal of Physical Chemistry C,2007,111,6343-6349.· Kan W,Yu HT,Fu HG*,et al. Theoretical investigation on the protonation reactions and products of the stable [N,C,C,S] isomers,Journal of Computational Chemistry,2007,28,2472-2482.· Zhao YL,Yu HT*,Fu HG,et al. 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chemmatter的认可度高。因为AdvancedOpticalMaterials的任何一个子刊,基本上就代表了此方向上的最高水平。认可度还是高的。2013年出版文章113篇,引用77次,即时影响因子现在逐渐在以发高比例review来提升其影响因子,并且在acs期刊中一直扮演着jacs回收站的角色,是一个方向比较杂的期刊。
Advance in physics属于物理顶级杂志
分别是CA-A,Cancer,Journal,ForClinicians。神刊CA-A,Cancer,Journal,ForClinicians首次突破500分,IF高达。紧随其后的是NEJM,离100仅一步一遥,以位列第二。