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期刊名称:中国教育信息化 期刊级别:国家级期刊周期:半月刊国内统一刊号:CN:11-5572/TP国际标准刊号:ISSN:1673-8454主办单位:教育部教育管理信息中心主管单位:中华人民共和国教育部 面向教育行业秉承“传播信息知识,推动教育发展”的宗旨,及时宣传教育信息化方针政策,大力推动教育技术理论和应用研究。及时报道党校信息技术教育研究的最新成果及区域发展动态,为教育信息化管理部门和党校找寻沟通交流平台。中国教育信息化杂志社是教育部教育管理信息中心直属媒体机构,负责编辑出版《中国教育信息化》、《基础教育参考》、《世界教育信息》三本刊物,同时承办论坛、展会、巡展、培训等活动。《中国教育信息化》杂志是教育部教育管理信息中心主办的唯一国家级教育信息化权威刊物。1995年8月创刊,当时杂志名称是《管理信息系统》,刊名由启功先生书写;2002年更名为《教育信息化》;2007年更名为《中国教育信息化》。将原国际标准刊号:ISSN 1671-7201和国内统一刊号:CN 11-4829/TP,改为现在的刊号。编委会主任展涛编委会副主任罗方述编委会委员略社长 周 一总编祁 伟副总编兼主编苏福根编辑部主任郭桂真 王晓明美 术 编 辑 石兴虎版 面 设 计张 娜理事会负责人 杨 阳 设有栏目有:专题、网络建设、软件开发、资源建设、教学探索、技术应用等栏目。
中国建设信息化与工程管理前沿相比,中国建设信息化更权威。中国建设信息化杂志创办于1995,是住房和城乡建设部主管的国家重点学术期刊,部级期刊,影响因子,现被知网收录等机构收录。是建筑信息行业的权威杂志。
刊名:财经界Money China主办:国家信息中心周期:月刊出版地:北京市语种:中文;开本:大16开ISSN:1009-2781CN:11-4098/F邮发代号:82-569历史沿革:现用刊名:财经界曾用刊名:经济信息创刊时间:1983《财经界》是国家信息中心主办的国家级财经类核心期刊。是国家经济信息系统指定刊物,中央、国务院政策研究机构、国家发改委、国务院信息办、全国计划会议、各地方主管经济计划工作的领导特送刊物。财经界荣获2006年度中文期刊网络传播中国阅读排行前100名期刊;2006年度管理财经期刊网络传播中国阅读排名前10名期刊。
★国家级经济类期刊《财经界》主管单位:国家发展和改革委员会主办单位:国家信息中心国际标准刊号: ISSN 1009-2781 国内统一刊号: CN 11-4098/F 《财经界》是国家信息中心主办的国家级财经类核心期刊。是国家经济信息系统指定刊物,中央、国务院政策研究机构、国家发改委、国务院信息办、全国计划会议、各地方主管经济计划工作的领导特送刊物。《财经界》栏目有:财会研究、金融天地、投资理财、管理论坛、理论探索、博硕论坛、学术探讨等。侧重学术研究理论探索。《财经界》对评定高级、中级职称或申请博士、硕士学位均有效。 征稿范围:涉及财会、经济、管理、金融等领域的学术论文。所以说 是的!
《财经界》是国家信息中心主办的国家级财经类核心期刊(诚信映象采编部摘录)期刊有级别之分,这似乎是行内共识了。但国家相关部门明确表示,从未对期刊进行学术性上的级别划分。即正规学术期刊不分级别。但部分单位对职称中发表论文的期刊,做出了国家级和省级加分不同的规定。这就让很多作者开始追求尽量发国家级来提高职称评审中论文一项的加分。期刊级别都有哪些区分?期刊根据地域划分,可以分为国内期刊和国际期刊。通常把国外出版的期刊称为国际期刊,而对国内出版的期刊称为国内期刊。国际期刊要想在国内发行,必须首先获得新闻出版总署批准的国内统一刊号,即CN刊号。因为大部分国际期刊并没有CN刊号,所以在国内并不被承认。国内职称政策中也明确表明了:职称论文发表的期刊必须具有正规的CN刊号的期刊。期刊根据行政级别划分,可以分为国家级和省级之分(又称呼中央级和地方级)。通常意义上,将国家级单位主管的期刊称为国家级,省级单位主管的期刊称为省级。以此类推出,市级单位主管的期刊称为市级,学校主管的期刊称为校级。这个划分是行政管理上的划分,与学术无关。因此北大图书馆的全国中文核心期刊和南大的CSSCI核心期刊目录里的期刊,主管单位是各级别都有的。因为全国中文核心期刊和CSSCI期刊都是根据期刊学术水平来评的,而不是靠行政管理级别来评的。
《财经界》杂志于1983年创刊,为大型财经月刊,研究范围覆盖40个产业,是国家信息中心主办的国家级财经类核心期刊,属于国家一级B类期刊。是国家经济信息系统指定刊物,中央、国务院政策研究机构、国家发改委、国务院信息办、全国计划会议、各地方主管经济计划工作的领导特送刊物。
1.化学与生物工程
是美国《化学文摘》、《中国核心期刊(遴选)数据库》、《中国学术期刊综合评价数据库》、《中国期刊网》、《中国化学化工文摘》收录期刊。 《化学与生物工程》报道范围涉及化学化工与生物化学领域的发展动向及研...
主管主办:湖北省教育厅 武汉工程大学;湖北省化学化工学会;湖北省化学研究院;湖北省化学工业研究设计院
2.化工设计通讯
《化工设计通讯》(双月刊)创刊于1975年,由湖南化学工业设计院主办。发行范围遍及全国各省、市、自治区化工主管部门、设计院、科研院(所)、化肥企业、化工企业、大专院校、图书馆及各信息部门。报道化工产品的...
3.当代化工
《当代化工》(月刊)创刊于1972年,由中国石油抚顺石化公司;中国石化抚顺石油化工研究院;沈阳化学化工学会主办。主要报道石油和化工的前沿科技论文,及时介绍石化行业新技术、新成果、新信息、新态势、它的办刊...
主管主办:沈阳市医药和化工行业联合会 中油抚顺石化公司;中感化抚顺石油化工研究院;沈阳市医药和化工行业联合会
核心以下级别的期刊,应该中的难度都不大吧!主要就是挑个版面费便宜的就行。核心就比较难了,
科技文献 《Science》杂志[英文] 美国自然科学权威杂志。 《Nature Asia》 Gateway to Nature's world of science。 中华医学网 中国生物医学资讯的门户网站。 《金卡工程》 具有权威、全面、真实等特点,可浏览过往杂志内容。 《Proceedings of the National Academy of Sciences》[英文] 介绍美国国家科学院的科技进展。 Science Daily[英文] 科学技术在线杂志. 中国期刊网CERNET网站 中国知识基础设施工程之一。 复杂性研究文摘(中英文) 圣菲研究所“复杂性研究文摘”,全世界分美、德、中三处发布。 电镀与涂饰 (双月刊)1982年创刊 Academic press electronic journal library[英文] 学术出版社电子期刊图书馆 软件学报 报道国家自然科学基金等资助的研究项目,代表我国软件研究水平。 《暖通空调》 中国建筑科学类核心期刊。 西安交通大学学报 报道一般工程技术和数学、物理、化学等方面的科研成果 《natureasia/门》[英文] 全球网际网路杂志 提供电子商务,法规政策及网路世界探索等资讯。 《Journal of Theoretics》[英文] 理论期刊。 消防技术与产品信息 杂志。 中国信息年鉴网 介绍反映我国信息化建设全貌的专业年刊-《中国信息年鉴》的基本情况。 中国科学 中国科学院主办、中国科学杂志社出版的自然科学专业性学术刊物。 深圳特区科技杂志社 深圳特区科技杂志社的网站,包括每期的最新资讯,热辣新闻等。 《管理信息系统》杂志社 现代化工 中国化工信息中心主办的公开发行的大型综合性化工科技刊物。 《Prometheus》[英文] 《Annual Reviews/年度评论》[英文] 《流体工程学》[英文] Journal of Fluides Engineering,美国著名的工科院校Virginia Tech主办。 大众科技报 大众科技报网络版。 中国期刊网汕头镜像站 提供近7000种学术期刊(全文或文摘),经济、商务、法律、科技。 工业计量杂志 网站设有全年刊物内容,广告服务,投稿须知,征订启示等内容。 Isis[英文] 科学基金杂志部 4种学术期刊和其他业务活动情况. 中国科学院科院刊 《Journal of Young Investigators》[英文] 青年科学家期刊。 中国地质文摘 中文地学文献检索刊物。中国地质图书馆主办。 橡胶工业 以橡胶加工技术为主的综合性全国专业期刊。 北极科学考察(人民日报) 科技新潮网 Library of Congress Science Tracer Bullets[英文] 科技新闻大观 提供科技产业新闻,美国硅谷和台湾新竹高科技业厂商的信息。 《ChemPort》[英文] 华夏星火 《华夏星火》月刊由国家科技部主管,被誉为中国星火计划第一刊。 水利水电市场 介绍水利水电市场需求与政策法规。 中外产业科技杂志社广东省办事处 专家理论指导,让科技界、产业界发展更快更健康,大型企业成功经验。 《科学月刊 》[繁体] 科学网际月刊,由台湾天下文化书坊维护。 《金卡工程》杂志社 中国卡业界获得国家科技部和新闻出版总署批准的国家科技核心期刊。 量测资讯双月刊[繁体] 发现者[繁体] 能源、资源与环境季刊[繁体] 砂石产业的现况与未来,海砂开采的经济效益分析等等。 新电子[繁体] 新电子杂志的站点。 3C领域介绍与成果季刊[繁体] 由工研院资讯服务中心制作。内有本杂志各期全文档。 ITRIToday[繁体] 工研院发行的线上英文学术季刊。 工业技术与资讯月刊[繁体] 内有产业研发系列报导,机械通讯产业透析等单元。 《技术评论》[英文] 该杂志注重于应用科学,强调解决问题的技巧和方法。
中文化学化工核心期刊
化学类核心期刊:1.高等学校化学学报
2.分析化学
3.化学学报
4.化学通报
5.中国科学.B辑,化学 6.物理化学学报
7.光谱学与光谱分析
8.催化学报
9.理化检验.化学分册
10.应用化学 11.高分子学报
12.有机化学
13.无机化学学报
14.分析实验室
15.色谱
16.冶金分析 17.分子催化
18.分析测试学报
19.化学物理学报
20.计算机与应用化学
21.化学试剂 22.结构化学
23.化学研究与应用
24.化学进展
化工核心期刊:
1.化工学报
2.高分子材料科学与工程
3.石油化工
4.硅酸盐学报 5.高分子学报
6.燃料化学学报
7.中国塑料
8.应用化学
9.无机材料学报
10.化学工程
11.工程塑料应用
2.化工进展
13.现代化工
14.膜科学与技术 15.精细化工
16.高校化学工程学报
17.功能高分子学报
18.功能材料 19.塑料工业
20.化学反应工程与工艺
21.合成纤维工业 22.天然气化工.C1,化学与化工
23.化学世界
24.现代塑料加工应用 25.日用化学工业
26.精细石油化工
27.离子交换与吸附
28.塑料科技 29.合成橡胶工业
30.橡胶工业
31.中国医药工业杂志
32.合成树脂及塑料 33.化工新型材料
34.新型炭材料
35.涂料工业
36.硅酸盐通报
37.塑料 38.计算机与应用化学
39.煤炭转化
40.无机盐工业
41.过程工程学报
《科技信息》杂志是经过国家新闻出版总署审批的科技类期刊。由山东省科技厅主管,山东省技术开发服务中心主办,其国际标准刊号:ISSN 1001-29960,国内统一刊号:CN37-1021/N,邮发代号:24-72。自2007年开始改为旬刊,是省级以上期刊,山东省优秀科技期刊。
有真刊和假刊,真刊是山东的,64页,内容是科技政策和科技新闻及事实人物。
中国科技信息杂志(半月刊)简介 主管: 中国科协技术协会 主办单位:中国科技新闻学会 编辑出版:中国科技信息杂志社 国内统一刊号:CN11-2739/N国际标准出版号:ISSN1001-8972 国际发行代号:M4141本刊理念:在科学理论指导下,观察世界!观察中国!
《科技信息》杂志系山东省科技厅主管,山东省技术开发服务中心主办的科技学术性期刊;国内刊号:CN37-1021/N,国际刊号:ISSN1001-9960,邮发代号:24-72对评职晋职对很有帮助的
Web of Science(SCI) 各大高校的图书馆数据资源里都有 但是不一定全部能下载,要看学校购珐姬粹肯诔厩达询惮墨买的使用情况
Countries in the world of development of agricultural information (世界各国农业信息化发展) World Agricultural Information technology generally go through three stages: the first stage is 50-60 during the 20th century, radio, telephone communications and science and computer information stage; the second phase is 70-80 during the 20th century, computer data processing and knowledge processing stage; the third stage of the 20th century since the 90's agricultural database development, network and multimedia technologies and agricultural production, such as automatic control of the new stage of development. At present, the area of information technology in agriculture in the world's leading countries in the United States, Germany and Japan. The United States is the leader in information technology, agriculture, Japan, Germany, followed by France and other developed countries; India and other developing countries, although the late start, but developed rapidly; Vietnam also recognizes the importance of agriculture and information technology, is stepping up its to catch up. United States of America Since 1844, Morse (SFBMorse) invented the first telegram, the subsequent image transfer technology with the invention, the . audio and video broadcasts of the radio has been the rapid development and popularization of rural areas has been greatly promoted the United States the process of agricultural information; AppleMacintosh series in 1984 launched the commercialization of computer operation and the promotion of practical use to stimulate the building of the . agricultural database, computer network, such as construction. In 1985, the United States published the world's 428 agricultural computerized cataloging database. These databases is one of the most important agricultural information resources. One of the most famous, most widely used is: The United States National Agricultural Library and co-developed by the . Department of Agriculture A-GRICOLA, its storage magazine articles, government publications, technical reports and so on. The United States also has a national crop germplasm resources information management system across the country to provide services to the breeding farm; the 20th century, the United States since the 70s of the computer application scope gradually to the farm. By 1985, the United States has 8% of farmers use the computer processing of agricultural production, including some large farms have been computerized. Today, computer applications, to the United States, farm management and production control, research and production of high-quality, efficient and cost-effective. Japan MAFF information in rural areas of the building from the mid-50th century farm broadcasting (cable run) to start the infrastructure. By the late 20th century, 60, Japan "GreenUtopia the concept of" response to the news media at that time the trend of information technology for rural development has played a great role in promoting. By the late 80's, for a variety of rapidly growing popularity of information technology, network development, information-based policy in rural areas continue to expand in rural areas, the degree of information technology into the rapid development stage. The end of 1998, in the prefectures in Japan with the establishment of agricultural information-related institutions such as the network center 67, an average of for each County Agricultural Information Center. 90 Japan in the early 20th century established the National Agricultural Technology Information Service online networks, that is, Telegraph and Telephone Company's real-time management system (DRESS), its large-scale electronic computer can be the collection, processing, storage and delivery from all over the country's agricultural technical information. DRESS County are located in each sub-centers, can quickly obtain information and exchange of information at any time. Germany In the mid-20th century, 50 to 70 of Germany's agricultural radio, telephone, television and other communication technologies, and universal in rural areas. 70 In the mid-20th century to the mid-80's, a German computer data processing, data storage, such as the establishment of agricultural information technology from the initial stage to mature stage. The mid-80s, the German government commissioned the study in Germany has established a full model of the agricultural economy of the region, later additions and amendments continue to be a very mature to deal with the agricultural information system to provide services for the decision-making. 80 In the mid-20th century to the early 90s, in this period, Germany in agricultural research and development of database technology has made a lot of work to the building. Since the mid-90s, the emergence of Internet dissemination of agricultural information to make a fundamental change occurred in the past, large and inefficient data storage facilities, high-performance computer systems have been replaced. At present, Germany through a variety of network connectivity, can find information on a variety of professional research, science and technology, management information and economic information. France Before 1997, the French information technology also is lagging behind. Since 1997, the French government will be the development of the Information Society a priority before, the former Prime Minister Lionel Jospin was launched on "Information Society Project Action (PAGSI)". Through unremitting efforts, France has been in information technology has made gratifying achievements. France with the family computer in 1997 and 2000 almost doubled. At the end of 2000, the family personal computer equipped with the rate of between 26% -33%, and the growth rate achieved during the period is basically the European average, which also contributed to France's development of agricultural information. India India in the 20th century, the beginning of the 60's the use of agricultural research in the computer. 20th century since the 90's, the Indian government decided to implement the Agricultural Research Information System (ARIS) project, with information technology for national agricultural research systems, funds from the National Agricultural Research Project Fund. The establishment of agricultural research information system is the main purpose of: agriculture and agricultural research managers to quickly and easily access to information; use of national agricultural research systems to collect the infrastructure, processing, storage, retrieval and use of information; at the national agricultural research system the full realization of the sharing of information resources; improve research project planning, implementation, monitoring and evaluation capacity. South Korea 20th century 80's, South Korea to speed up the process of economic globalization, with the intensification level of agricultural modernization and the improvement of crop yield is also significantly improved, to some extent alleviated the negative effects of reduced arable land. South Korea in the process of modernization of agriculture, agricultural information up on the agenda. Of agricultural information at this stage is characterized mainly in the construction of infrastructure to work. South Korea launched in 1994 "plan to revitalize agricultural and fishery and agricultural policy reform program" to strengthen the science and technology including information technology, investment in agriculture. In the process of the revitalization of agriculture, agricultural information technology come into play. This stage of the characteristics of agricultural information is to strengthen the Government's role in the process of informatization. South Korea agricultural information as a late start of the country, of agricultural information to take the "catch up" mode. "Catch up" the State may use the successful experience of developed countries, vis-à-vis the process of industrialization in advance for access to the information age, and in turn the use of information technology to promote and transform the traditional agriculture, and even the formation of "industrialization" and "information-based "The new model combining. This stage the main features of information technology is more focused on the effectiveness of the application of information technology. Vietnam Vietnam's agricultural information of a late start, a wave of information technology in the world under the impetus of the 20th century, late 90's to establish the Internet in 2000, e-ASEAN agreement formally joined. At present, the Vietnamese Ministry of Agriculture and Rural Development in the realization of e-management process, the Government has learned from the experience of many countries, plans to carry out four steps: the first step in the establishment of websites, to provide basic information for farmers; the second step to establish and expand the agricultural and rural the development of trade information systems; the third step the establishment of agriculture and rural development for the software industry, to replace imported software and the progressive realization of export their own software; fourth step is to adapt to the needs of technology development, strengthening of agricultural information technology experts training.