分类:SCI论文发表 时间:2025-06-23 热度:576
搞化学传感、生物传感研究的小伙伴看过来!今天给大家唠唠化学领域1区TOP期刊《Sensors and Actuators B: Chemical》,从影响因子到投稿经验,掰开揉碎了讲,帮你避坑又高效投稿!
一、期刊基础信息速览
创刊&出版:1990年创刊,ISSN0925-4005 ,由Elsevier出版,专注化学换能器研发,只收有实验数据的论文,纯理论别投!
分区实力:
JCR分区Q1,中科院分区化学大类1区(TOP期刊),非综述刊,学术含金量拉满~
影响因子:最新IF7.7,近几年稳如老狗,发这类期刊,评职称、申项目底气足!
二、收稿范围&文章类型
(一)收稿方向(划重点!别投错)
主打化学/生物传感+技术开发,比如:
新传感概念(化学/生物传感机制、检测原理)
传感器/执行器开发(化学/生物传感器、芯片检测装置、化学致动器等)
系统应用(光子传感、微流控、芯片实验室、传感器计量学 )
简单说,只要和“化学换能器、传感应用”挂钩,有实验数据支撑,都能试试!
(二)文章类型
研究论文(主力)、评论文章(需编辑邀请)、简短通信 ,一般投“研究论文”就好~
三、投稿关键数据(避坑必看)
(一)年发文量 & 国人占比
年发文量1199篇 ,但近几年在下降,投稿竞争可能变大,得把论文质量拉满!
国人发文量常年第一(过去五年6244篇),对咱中国学者友好,不用担心“水土不服”~
(二)自引率
2024-2025自引率7.80% ,安全数值,不在预警名单,发这里不用担心“自引风险”!
四、审稿周期&版面费
(一)审稿周期(官网数据 + 网友真实经历)
官网说:
投稿→初步决定:17天
投稿→编辑审查决定:76天
提交→接受:92天
接受→最终在线:7天
但网友投稿经验更“接地气”:
有人6个多月才接收(中间审稿人“失踪”、多次返修 )
也有人4个月审稿+1周小修就接收(像开了挂 )
总结:快的话3-5个月,慢的话半年+ ,得有耐心,也别卡着毕业deadline投!
(二)版面费
传统出版:免费存档,禁运期24个月后开放获取(适合想省钱的)。
黄金开放获取:5010美元/篇(不含税),发了就能免费读,预算够的话推荐,传播更广~
五、成功发表案例(高被引论文)
1、Capacitive humidity sensor based on zirconium phosphate nanoplates film with wide sensing range and high response
Duan, ZHLi, JTai, HL
Nov 1 2023 | SENSORS AND ACTUATORS B-CHEMICAL 394
Humidity sensing material is a key component of humidity sensor. In this short communication, we synthesized zirconium phosphate (ZrP) nanoplates and investigated their capacitive humidity sensing performance. The results show that the ZrP humidity sensor exhibits a wide response range (10.9-91.5 % relative humidity (RH)), high response (2409 at 91.5 % RH), short recovery time (9 s), and good repeatability at the optimal working frequency of 100 Hz and room temperature of 25 degrees C. In addition, the humidity sensing mechanism of the ZrP humidity sensor is analyzed by combining the characterization, dielectric constant and impedance testing results.
2、Current state of knowledge on the metal oxide based gas sensing mechanism
Staerz, AWeimar, UBarsan, N
May 1 2022 | SENSORS AND ACTUATORS B-CHEMICAL 358
Semiconducting metal oxide based gas sensors are a highly attractive option for use in a widespread array of applications as they can be miniaturized, are highly robust and inexpensive. This review focuses on SnO2, In2O3 and WO3, three commonly used metal oxides that are known to show a diversity in sensing behavior. In order to optimize the sensing behavior, it is imperative that the mechanism is understood. It is unanimously agreed upon that adsorption of oxygen and the resulting charge layer play a central role in the sensor response. Surface oxygen had proven to be illusive experimentally. Recent insights gained from operando methods, sophisticated surface science analysis tool and theoretical calculations are discussed. Additionally, these studies have revealed that the surface reactions are far more complicated than initially assumed. It is found that other adsorbates beyond oxygen can influence the sensor response. Depending on the site, the formation of adsorbates can have different effects on the sensor depending on the reaction site, e.g. hydroxyl group formation from humidity can result in the removal of negative charge or be electroneutral. The importance of understanding the effect of adsorbates becomes particularly evident when examining the chemically complicated volatile organic compounds, e.g. ethanol and acetone. In this review simplified schematics based on insights from theoretical and experimental studies are developed, so that the surface chemistry can be presented in an understandable manner despite its complexity.
3、Detection and removal of antibiotic tetracycline in water with a highly stable luminescent MOF
Zhou, YYang, QCuan, J
Jun 1 2018 | SENSORS AND ACTUATORS B-CHEMICALarrow_drop_down 262 , pp.137-143
Antibiotic tetracycline (TC) is a sort of main contaminates in water, and of adverse effect on ecosystems and human health. The development of simple and efficient methods for both detection and removal of TC in water is highly desirable but remains challenging. Herein, a dual-functional platform for detection and removal of antibiotic tetracycline (TC) is developed by a highly stable luminescent zirconium-based MOF (PCN-128Y). The detection is based on the efficient luminescence quenching of the PCN-128Y toward TC. Theoretical/experimental studies reveal that the luminescence quenching can be attributed to a combined effect of the strong absorption of TC at the excitation wavelength and the photo-induced electron transfer process from the ligand of PCN-128Y to TC. The strong cheating metal-ligand bonding between Zr-6 nodes and TC through solvent-assisted ligand incorporation is suggested to mainly account for the high adsorption capability of PCN-128Y toward TC in water. The preconcentration of TC within the pores of PCN-128Y induced by the adsorption process makes TC contact with the framework more sufficient, thus significantly enhances the efficiency of TC sensing. This work is the first example demonstrating that MOF materials can integrate the functions of detection and removal of antibiotic TC in water, which highlights the opportunity of luminescent MOFs in the application of wastewater treatment. (C) 2018 Elsevier B.V. All rights reserved.
4、Metal oxide composites in conductometric gas sensors: Achievements and challenges
Korotcenkov, G and Cho, BK
Jun 2017 | SENSORS AND ACTUATORS B-CHEMICALarrow_drop_down 244 , pp.182-210
The features of conductometric gas sensors based on metal oxide composites are considered. The methods of the composites forming and the advantages of their using in the development of gas sensors are discussed. It is given the analysis of the factors that reduce the effectiveness of the composite using in conductometric gas sensors and can restrict application of nanocomposites in these devices. Technology features of composite synthesis and device fabrication, which should be taken into account while designing and fabricating sensors based on metal oxide composites, are considered. The mechanisms explaining the operation of conductometric gas sensors based on metal oxide composites are also discussed. (C) 2016 Elsevier B.V. All rights reserved.
六、真实投稿经验(网友血泪/幸运史)
案例1:“艰辛6个月,还好没放弃”
网友timeline:1.1投稿→1.7送审→2.7拒稿重投→2.17重投→4.27大修(审稿人跑路,编辑重新找审稿人又审1个月)→5.4提交→6.4 小修→6.11提交→6.18接收
教训:返修时遇到审稿人“失联”别慌,编辑会处理,但得做好周期拉长的准备!
案例2:“4个月审稿+1周小修,像做梦”
网友:投稿审了4个月,返回来小修,提交一周就接收!
经验:要是研究方向特别契合期刊,数据扎实,真能“光速接收”,所以选刊和做实验都得用心~
案例3:“遇到神仙编辑,效率拉满”
网友timeline:9.3 with editor→9.5 under review→9.21 major revision→10.20 with editor→10.21 under review→10.22 minor revision→11.2 with editor→11.5 accepted
亮点:编辑jong - heun lee效率极高,文章在手不超过3天!所以遇到好编辑,真能加速进程,投稿时也可以了解下编辑风格(虽然难提前选 )
七、投稿建议(纯干货,照做少踩坑)
论文质量:因为收稿要求“有实验结果”,所以数据一定要扎实!机制研究、性能测试、对比实验都得做全,别给审稿人挑刺机会~
选方向:严格贴合“化学/生物传感、换能器开发”,纯理论、脱离应用的别投(投了也白投)。
返修心态:遇到大修、审稿人意见多,别崩溃!认真回应每一条意见(哪怕觉得无理 ),返修质量决定“生死”~
周期规划:别卡着毕业、申项目时间投,最好提前6-12个月准备,留足返修、等待时间。
八、期刊网址&投稿入口
期刊官网:https://www.sciencedirect.com/journal/sensors-and-actuators-b-chemical
投稿链接:http://ees.elsevier.com/snb/
总的来说,Sensors and Actuators B: Chemical 是化学1区TOP刊,IF稳、国人友好、审稿不算特别慢(看运气和论文质量),做化学传感、生物传感的小伙伴,大胆冲!要是你有投稿故事想分享,或者还有疑问,都可以找我们分享~
文章名称:深度解析!《Sensors and Actuators B: Chemical》投稿全攻略(影响因子、审稿周期、经验分享
