ACS Nano的影响因子是一个动态变化的值,近年来一直保持在较高水平。根据公开数据,截至2024年3月26日,其实时影响因子为15.625。在2021年,ACS Nano的影响因子达到了18.027,显示了其在纳米科学和技术领域的极高学术影响力。虽然近年来影响因子有所波动,但整体上保持在一个相对稳定的高水平...
YearImpact Factor (IF)Total ArticlesTotal Cites 2023 (2024 update)15.81960227757 202217.1-223019 202118.027-224439 202015.8811542195525 201914.5881380166989 201813.9031290152659 201713.7091325134596 201613.9421250116242 201513.334126897676 201412.881132878579 201312.033117858446 ...
Research Impact Score*: 15.3 Impact Factor: 5.3 SCIMAGO SJR: 1.134 SCIMAGO H-index: 80 Research Ranking (Electronics and Electrical Engineering) 174 Research Ranking (Engineering and Technology) 87 Research Ranking (Materials Science) 50 Number of Best scientists*: 1114 Documents by be...
ACS Nano ISSN:1936-0851 发文量:1380 影响因子:14.588 JCR分区:Q1 ISSN:1936-0851 Number of publications:1380 Impact factor:14.588 JCR partition:Q1 Issue Publication Information Note: In lieu of an abstract, this is the article's first page. ...
1st Impact Factor 两年影响因子:4.7 五年影响因子:4.6 引用分数:7.9 引用总数:12,105 投稿到初审决定平均时间:4.9天 主编:Kirk S. Schanze (University of Texas) 执行主编:Shu Wang (Institute of Chemistry, Chinese Academy of Sciences) ACS Applied Electronic Materials ...
ACS Nano 两年影响因子:15.8 五年影响因子:16.2 引用分数:26 引用总数:227,757 投稿到初审决定平均时间:4.6天 ACS Nanoscience Au 两年影响因子:4.8 五年影响因子:4.8 引用分数:4.2 引用总数:319 投稿到初审决定平均时间:7.4天 1st Impact Factor ACS Omega ...
Acs Applied Nano Materials(2023-2024年最新版数据) 按JIF指标学科分区收录子集分区排名百分位 学科:MATERIALS SCIENCE, MULTIDISCIPLINARYSCIEQ2122 / 438 72.3% 学科:NANOSCIENCE & NANOTECHNOLOGYSCIEQ246 / 140 67.5% 按JCI指标学科分区收录子集分区排名百分位 ...
Published monthly, ACS Nano is an international forum for the communication of comprehensive articles on nanoscience and nanotechnology research at the interfaces of chemistry, biology, materials science, physics, toxicology, and engineering. Moreover, t
candidates for deep-space exploration because of their high integration and low power consumption. Chalcogenide suspended nanorib waveguide gas sensors are proposed with an ultrawide waveband covering 3.2–11.5 μm and an exceptionally high external confinement factor of 107–128% over this wide range...
9.Through the hybridization of gap-surface plasmons and localized surface plasmon resonance, scalable and reliable "slot-under-groove" nanoarrays with a high Purcell factor and a large spatial mode distribution are developed, where the customizability of the opening angle enables us to achieve precis...