Journal Title:Bionanoscience
bionanoscience Is A New Field Of Research That Has Emerged At The Interface Of Nanoscience And Biology, Aimed At Integration Of Nano-materials Into Engineered Systems, For New Applications In Biology And Medicine. The Aim Of Bionanoscience Is To Provide A Forum For The Rapidly Growing Area Of Bionanoscience, Emphasizing The Link Between Structure, Properties And Processes Of Nanoscale Phenomena In Biological And Bioinspired Structures And Materials For A Variety Of Engineered Systems. The Journal Promotes Fundamental Research In Bionanoscience And Engineering To Advance Nanoscience, Nanotechnology And Engineering, Toward Application In Biology And Medicine. This New Journal Will Provide A Forum For This Interdisciplinary Community By Publishing Highest Quality Peer-reviewed Publications.
methods Covered In This Journal Include Experimental (including But Not Limited To Imaging, Via Sem/afm/optical Microscopy And Tweezers; X-ray Scattering And Diffraction Tools, Electrical/magnetic Characterizations; Design, And Synthesis Via Self-assembly, Layer-by-layer, Langmuir Films; Biotechnology, Via Recombinant Dna Methods, And Protein Engineering, Etc.), Theoretical (e.g. Statistical Mechanics, Nanomechanics, Quantum Mechanics, Etc.) And Computational (bottom-up Multi-scale Simulation, First Principles Methods, Supercomputing, Etc.) Research.
areas Of Applications Of Interest Include All Relevant Physical, Chemical, And Biological Phenomena And Their Engineering Into Integrated Systems: Mechanical (e.g. Deformation, Adhesion, Failure), Electrical And Electronic (e.g. Electromechanical Stimulation, Capacitors, Energy Storage, Batteries), Optical (e.g. Absorption, Luminescence, Photochemistry), Thermal (e.g. Thermomutability, Thermal Management), Biological (e.g. How Cells Interact With Nanomaterials, Molecular Flaws And Defects, Biosensing, Biological Mechanisms S.a. Mechanosensing), Nanoscience Of Disease (e.g. Genetic Disease, Cancer, Organ/tissue Fa Ilure), As Well As Information Science (e.g. Dna Computing). The Journal Covers Fundamental Structural And Mechanistic Analyses Of Biological Processes At Nanoscale And Their Translation Into Synthetic Applications. Studies Of Interfaces (e.g. Between Dissimilar Structures, Organic-inorganic) Are Of Particular Interest. In The Area Of Interface Between Dissimilar Structures, Papers Are Also Welcome On Hybrid Systems, Including Cmos Integrated Circuits Embedding Organic Nanostructures As Well As Biological Components.
生物纳米科学是纳米科学和生物学交叉领域中出现的一个新研究领域,旨在将纳米材料整合到工程系统中,以用于生物学和医学领域的新应用。生物纳米科学的目的是为快速发展的生物纳米科学领域提供一个论坛,强调生物和仿生结构和材料中纳米级现象的结构、特性和过程之间的联系,这些结构和材料适用于各种工程系统。该期刊促进生物纳米科学和工程领域的基础研究,以推动纳米科学、纳米技术和工程在生物学和医学领域的应用。这本新期刊将通过出版最高质量的同行评审出版物,为这个跨学科社区提供一个论坛。
本期刊涵盖的方法包括实验(包括但不限于通过 Sem/afm/光学显微镜和镊子进行成像;X 射线散射和衍射工具、电/磁特性;通过自组装、逐层、朗缪尔膜进行设计和合成;通过重组 DNA 方法和蛋白质工程等进行生物技术)、理论(例如统计力学、纳米力学、量子力学等)和计算(自下而上的多尺度模拟、第一原理方法、超级计算等)研究。
感兴趣的应用领域包括所有相关的物理、化学和生物现象及其集成系统的工程化:机械(例如变形、粘附、失效)、电气和电子(例如机电刺激、电容器、储能、电池)、光学(例如吸收、发光、光化学)、热(例如热变性、热管理)、生物(例如细胞如何与纳米材料相互作用、分子缺陷和缺陷、生物传感、生物机制 S.a. 机械传感)、疾病纳米科学(例如遗传病、癌症、器官/组织故障)以及信息科学(例如 DNA 计算)。该期刊涵盖纳米级生物过程的基本结构和机械分析及其向合成应用的转化。界面研究(例如不同结构之间、有机-无机之间)尤其令人感兴趣。在不同结构之间的界面领域,也欢迎关于混合系统的论文,包括嵌入有机纳米结构以及生物成分的 CMOS 集成电路。
Bionanoscience由Springer Nature出版商出版,收稿方向涵盖MATERIALS SCIENCE, BIOMATERIALS全领域,平均审稿速度 ,影响因子指数3,该期刊近期没有被列入国际期刊预警名单,广大学者值得一试。
| 按JIF指标学科分区 | 收录子集 | 分区 | 排名 | 百分位 |
| 学科:MATERIALS SCIENCE, BIOMATERIALS | ESCI | Q3 | 38 / 53 |
29.2% |
| 按JCI指标学科分区 | 收录子集 | 分区 | 排名 | 百分位 |
| 学科:MATERIALS SCIENCE, BIOMATERIALS | ESCI | Q4 | 40 / 53 |
25.47% |
名词解释:
WOS即Web of Science,是全球获取学术信息的重要数据库,Web of Science包括自然科学、社会科学、艺术与人文领域的信息,来自全世界近9,000种最负盛名的高影响力研究期刊及12,000多种学术会议多学科内容。给期刊分区时会按照某一个学科领域划分,根据这一学科所有按照影响因子数值降序排名,然后平均分成4等份,期刊影响因子值高的就会在高分区中,最后的划分结果分别是Q1,Q2,Q3,Q4,Q1代表质量最高。
| CiteScore | SJR | SNIP | CiteScore排名 | ||||||||||||
| 5.1 | 0.47 | 0.739 |
|
名词解释:
CiteScore:衡量期刊所发表文献的平均受引用次数。
SJR:SCImago 期刊等级衡量经过加权后的期刊受引用次数。引用次数的加权值由施引期刊的学科领域和声望 (SJR) 决定。
SNIP:每篇文章中来源出版物的标准化影响将实际受引用情况对照期刊所属学科领域中预期的受引用情况进行衡量。
| 是否OA开放访问: | h-index: | 年文章数: |
| 未开放 | -- | 222 |
| Gold OA文章占比: | 2021-2022最新影响因子(数据来源于搜索引擎): | 开源占比(OA被引用占比): |
| 2.63% | 3 | |
| 研究类文章占比:文章 ÷(文章 + 综述) | 期刊收录: | 中科院《国际期刊预警名单(试行)》名单: |
| 95.50% | SCIE | 否 |
历年IF值(影响因子):
历年引文指标和发文量:
历年自引数据:
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