Bionanoscience

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.

生物納米科學(xué)是納米科學(xué)和生物學(xué)交叉領(lǐng)域中出現(xiàn)的一個(gè)新研究領(lǐng)域，旨在將納米材料整合到工程系統(tǒng)中，以用于生物學(xué)和醫(yī)學(xué)領(lǐng)域的新應(yīng)用。生物納米科學(xué)的目的是為快速發(fā)展的生物納米科學(xué)領(lǐng)域提供一個(gè)論壇，強(qiáng)調(diào)生物和仿生結(jié)構(gòu)和材料中納米級(jí)現(xiàn)象的結(jié)構(gòu)、特性和過程之間的聯(lián)系，這些結(jié)構(gòu)和材料適用于各種工程系統(tǒng)。該期刊促進(jìn)生物納米科學(xué)和工程領(lǐng)域的基礎(chǔ)研究，以推動(dòng)納米科學(xué)、納米技術(shù)和工程在生物學(xué)和醫(yī)學(xué)領(lǐng)域的應(yīng)用。這本新期刊將通過出版最高質(zhì)量的同行評(píng)審出版物，為這個(gè)跨學(xué)科社區(qū)提供一個(gè)論壇。

本期刊涵蓋的方法包括實(shí)驗(yàn)（包括但不限于通過 Sem/afm/光學(xué)顯微鏡和鑷子進(jìn)行成像；X 射線散射和衍射工具、電/磁特性；通過自組裝、逐層、朗繆爾膜進(jìn)行設(shè)計(jì)和合成；通過重組 DNA 方法和蛋白質(zhì)工程等進(jìn)行生物技術(shù)）、理論（例如統(tǒng)計(jì)力學(xué)、納米力學(xué)、量子力學(xué)等）和計(jì)算（自下而上的多尺度模擬、第一原理方法、超級(jí)計(jì)算等）研究。

感興趣的應(yīng)用領(lǐng)域包括所有相關(guān)的物理、化學(xué)和生物現(xiàn)象及其集成系統(tǒng)的工程化：機(jī)械（例如變形、粘附、失效）、電氣和電子（例如機(jī)電刺激、電容器、儲(chǔ)能、電池）、光學(xué)（例如吸收、發(fā)光、光化學(xué)）、熱（例如熱變性、熱管理）、生物（例如細(xì)胞如何與納米材料相互作用、分子缺陷和缺陷、生物傳感、生物機(jī)制 S.a. 機(jī)械傳感）、疾病納米科學(xué)（例如遺傳病、癌癥、器官/組織故障）以及信息科學(xué)（例如 DNA 計(jì)算）。該期刊涵蓋納米級(jí)生物過程的基本結(jié)構(gòu)和機(jī)械分析及其向合成應(yīng)用的轉(zhuǎn)化。界面研究（例如不同結(jié)構(gòu)之間、有機(jī)-無(wú)機(jī)之間）尤其令人感興趣。在不同結(jié)構(gòu)之間的界面領(lǐng)域，也歡迎關(guān)于混合系統(tǒng)的論文，包括嵌入有機(jī)納米結(jié)構(gòu)以及生物成分的 CMOS 集成電路。

Bionanoscience由Springer Nature出版商出版，收稿方向涵蓋MATERIALS SCIENCE, BIOMATERIALS全領(lǐng)域，平均審稿速度 ，影響因子指數(shù)3，該期刊近期沒有被列入國(guó)際期刊預(yù)警名單，廣大學(xué)者值得一試。