根据官网的数据,Cardiovascular Engineering and Technology第一次决定的时间是20天。 5. 版面费 Cardiovascular Engineering and Technology是一本接受开放获取期刊。根据官网显示发表文章需要版面费£2390.00/$3590.00/€2790.00。 6.期刊接受类型 期刊接受的稿件类型包括期刊主要接受原创研究文章、评论、临床研究和案例报告...
根据中科院和JCR的评级,"Cardiovascular Engineering and Technology"期刊分别位于 大类学科 医学:4区;小类学科 工程生物医学、心脏和心血管系统:4区;JCR分区属于Q4区。 4、研究范围: "Cardiovascular Engineering and Technology"期刊在心血管生理学和医学治疗的各个方面提供了从基础到转化的广泛研究。它为学术和工业研究...
Cardiovascular Engineering and Technology (CVET) presents a wide spectrum of research, ...[显示全部] 给编辑部投稿--> 官网投稿 收藏本刊 报刊点评 咨询编辑部 纠错、补充 认证信息 广告 征稿信息 万维提示: 1、投稿方式:在线投稿。 2、期刊网址:https://www.springer.com/journal/13239 3、投稿...
Cardiovascular Engineering And Technology创刊于2010年,由Springer International Publishing出版商出版,收稿方向涵盖Engineering - Biomedical Engineering全领域,此期刊水平偏中等偏靠后,在所属细分领域中专业影响力一般,过审相对较易,如果您文章质量佳,选择此期刊,发表机率较高。平均审稿速度 ,影响因子指数1.6,该期刊近期...
Cardiovascular Engineering and TechnologyEIPubMedAJSCIEJST中科院4区JCR:Q3JCR:Q4 发文量755 被引量6,751 影响因子(2023)2.172 Cardiovascular Engineering and Technology (CVET) presents a wide spectrum of research, from basic to translational, in all aspects of cardiovascular physiology and medical treatment...
Cardiovascular Engineering and Technology简称:CARDIOVASC ENG TECHN 大类:医学 小类:心脏和心血管系统 ISSN:1869-408X ESSN:1869-4098 IF值:1.776 点击咨询相似期刊 声明:①本页面非期刊官网,不以期刊名义对外征稿,仅展示期刊信息做参考.投稿、查稿,请移步至期刊官网. ②如果您是期刊负责人且不想本平台展示期刊...
4区工程:生物医学否否 CARDIAC & CARDIOVASCULAR SYSTEMS 4区心脏和心血管系统 2021年12月最新升级版工程技术 3区ENGINEERING, BIOMEDICAL 4区工程:生物医学否否 CARDIAC & CARDIOVASCULAR SYSTEMS 3区心脏和心血管系统 2020年12月旧的升级版工程技术 3区ENGINEERING, BIOMEDICAL ...
Cardiovascular Engineering and Technology影响因子(IF)2.305属于心脏和心血管系统SCIE(Q3)区、工程、生物医疗SCIE(Q4)区适宜医学学者发表,Cardiovascular Engineering and Technology审稿周期,历年影响因子分析、投稿官网地址等信息请点击杂志详情页查询。
When the Biomedical Engineering Society (BMES) launched its newest journal, Cardiovascular Engineering and Technology (CVET) in 2010, its aim was to establish a new forum for translational research in all aspects of cardiovascular engineering, physiology, and medical therapies. We believe that, in ...
Hydrogel models pioneered in the field of tissue engineering as the first-ever modality to model disease using 3D frameworks. It is still the most used technology for constructing 3D platforms [31,37]. Hydrogels are gel-like structures composed of hydrophilic polymers that have either natural (gel...