ACS Sensors期刊的历史影响因子变化 ACS Sensors期刊的影响因子在不同年份有所波动。根据最新数据,2023-2024年ACS Sensors的影响因子为8.119(截止2024年3月26日),显示出其在传感器科学领域的高学术影响力。而2021-2022年的影响因子为10.787,进一步证明了其学术地位的稳固提升。这些数据的...
Acs 传感器(Acs Sensors)是一本由American Chemical Society出版的一本Chemical Engineering-Bioengineering学术刊物,主要报道Chemical Engineering-Bioengineering相关领域研究成果与实践。本刊已入选来源期刊,属于国际一流期刊。该刊创刊于2016年,出版周期Monthly。2021-2022年最新版WOS分区等级:Q1,2023年发布的影响因子为8.2,...
2022 Impact Factor:8.9 ACS Sensorsis a peer-reviewed research journal that is devoted to the dissemination of new and original knowledge on all aspects of sensor science that selectively sense chemical or biological species or processes. Articles should address conceptual advances in sensing. Papers ...
2016-2023 Information Homepage How to publish in this journal eic@sensors.acs.org Scope ACS Sensors is a peer-reviewed research journal that is devoted to the dissemination of new and original knowledge on all aspects of sensor science that selectively sense chemical or biological species or proces...
1st Impact Factor 两年影响因子:3.9 五年影响因子:3.9 引用分数:N/A 引用总数:148 投稿到初审决定平均时间:4.2天 主编:Shelley D. Minteer (University of Utah) 执行主编:Arthi Jayaraman (University of Delaware) ACS Sensors 两年影响因子:8.9 五年影响因子:9.0 ...
Hybrid integration of photonic chips with electronic and micromechanical circuits is projected to bring about miniature, but still highly accurate and reliable, laser spectroscopic sensors for both climate research and industrial applications. However, the sensitivity of chip-scale devices has been limite...
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...
Sensors 2023, 23, 30. [Google Scholar] [CrossRef] Chen, J.; Ma, A.; Huang, L.; Su, Y.; Li, W.; Zhang, H.; Wang, Z. GA-YOLO: A Lightweight YOLO Model for Dense and Occluded Grape Target Detection. Horticulturae 2023, 9, 443. [Google Scholar] [CrossRef] Qiu, Z.; Zeng...
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...