Physical sensors, chemical sensors, biosensors, lab-on-a-chip devices, remote sensors, sensor networks, smart/intelligent sensors, and a variety of other sensor technologies play pivotal roles in modern scientific and industrial applications. These sensors detect and measure physical, chemical, and biological parameters, enabling critical insights and advancements across diverse fields.
Objective:
The primary objective is to explore and advance sensor technologies such as physical sensors, chemical sensors, biosensors, and their applications. This journal provides a platform for disseminating cutting-edge research and technological innovations in sensor development and deployment.
Peer Review Process:
The journal employs a rigorous peer-review process to ensure the publication of high-quality research. Expert reviewers assess the scientific merit, originality, and relevance of submitted manuscripts, ensuring that only significant contributions to sensor technology and applications are accepted.
Innovation and Impact:
The journal focuses on publishing research that drives innovation in sensor technology, including advancements in physical sensors, chemical sensors, biosensors, and related fields. It aims to impact the scientific community by fostering the development of novel sensing principles, materials, and applications.
Global Reach and Accessibility:
With a global audience of researchers, engineers, and practitioners, the journal facilitates the dissemination of sensor-related knowledge worldwide. It promotes collaboration and knowledge exchange among professionals working in sensor technology, ensuring broad accessibility to groundbreaking research.
Interdisciplinary Collaboration:
Recognizing the interdisciplinary nature of sensor technology, the journal welcomes contributions that integrate insights from diverse fields such as optoelectronics, photonics, nanotechnology, and data science. This interdisciplinary approach enhances the applicability and innovation of sensor systems.
Practical Application and Management:
In addition to theoretical advancements, the journal emphasizes practical applications of sensor technology. Articles cover topics ranging from signal processing and data fusion to the deployment of sensors in real-world scenarios, offering valuable insights and guidance to professionals in the field.
Journal Home:  Journal Homepage
Editor-in-Chief:  Prof. Dr. Vittorio M. N. Passaro
scope:
Physical Sensors:
Physical sensors are devices that detect changes in physical parameters such as temperature, pressure, and motion, providing critical data for various applications.
Chemical Sensors:
Chemical sensors are designed to detect and measure chemical substances, offering valuable insights in fields like environmental monitoring, healthcare, and industrial processes.
Biosensors:
Biosensors integrate biological components with electronic systems to detect and quantify biological molecules, playing a vital role in medical diagnostics and biotechnology.
Lab-on-a-chip:
Lab-on-a-chip technology miniaturizes laboratory processes onto a single chip, enabling rapid and efficient chemical and biological analyses.
Remote Sensors:
Remote sensors collect data from a distance, widely used in applications like environmental monitoring, surveillance, and space exploration.
Sensor Networks:
Sensor networks consist of interconnected sensors that collaboratively monitor and analyze environmental conditions, enhancing data accuracy and coverage.
Smart/Intelligent Sensors:
Smart sensors incorporate advanced processing capabilities, enabling them to make autonomous decisions and adapt to changing conditions.
Sensor Devices:
Sensor devices encompass a wide range of instruments designed to detect specific physical, chemical, or biological parameters.
Sensor Technology and Application:
Sensor technology involves the development and application of sensors in various fields, driving innovation and efficiency across industries.
Sensing Principles:
Sensing principles refer to the fundamental concepts and mechanisms underlying the operation of sensors, crucial for their design and application.
Optoelectronic and Photonic Sensors:
Optoelectronic and photonic sensors use light-based technologies to detect and measure physical quantities, offering high sensitivity and precision.
Optomechanical Sensors:
Optomechanical sensors combine optical and mechanical elements to detect minute changes in physical properties, used in precision measurements and scientific research.
Sensor Arrays and Chemometrics:
Sensor arrays consist of multiple sensors working together, while chemometrics involves the application of mathematical and statistical methods to analyze chemical data.
Micro and Nanosensors:
Micro and nanosensors are miniaturized sensors that operate at microscopic and nanoscopic scales, enabling highly sensitive and localized measurements.
Internet of Things (IoT):
The Internet of Things connects sensors and devices over the internet, facilitating real-time data collection, analysis, and automation across various applications.
Signal Processing, Data Fusion, and Deep Learning in Sensor Systems:
Advanced signal processing, data fusion, and deep learning techniques enhance the performance and capabilities of sensor systems, enabling more accurate and insightful data interpretation.
Sensor Interface:
Sensor interfaces refer to the hardware and software components that enable sensors to communicate with other devices and systems.
Human-Computer Interaction:
Human-computer interaction in sensor systems focuses on designing interfaces that facilitate intuitive and efficient interaction between humans and sensors.
Advanced Materials for Sensing:
Advanced materials are developed to enhance the performance and functionality of sensors, improving their sensitivity, durability, and range of applications.
Sensing Systems:
Sensing systems integrate multiple sensors and technologies to provide comprehensive monitoring and analysis solutions.
MEMS/NEMS:
Micro-Electro-Mechanical Systems (MEMS) and Nano-Electro-Mechanical Systems (NEMS) are miniaturized devices that combine electrical and mechanical components for sensing applications.
Localization and Object Tracking:
Localization and object tracking technologies use sensors to determine the position and movement of objects, crucial for navigation, logistics, and security applications.
Print ISSN:  14243210,
Electronic ISSN:   14248220
Abstracting and Indexing:  Scopus, Science Citation Index Expanded
Imapct Factor 2023:  3.9
Subject Area and Category:   Biochemistry, Genetics and Molecular Biology, Biochemistry, Chemistry , Analytical Chemistry, Computer Science,Information Systems,Engineering,Electrical and Electronic Engineering,Medicine,Medicine (miscellaneous),Physics and Astronomy,Atomic and Molecular Physics, and Optics,Instrumentation
Publication Frequency:  
H Index:  245
Q1:  Analytical Chemistry
Q2:  
Q3:  
Q4:  
Cite Score:  4.1
SNIP:  0.595
Journal Rank(SJR):  0.376
Latest Articles:   Latest Articles in Sensors
Guidelines for Authors: Sensors Author Guidelines
Paper Submissions: Paper Submissions in Sensors
Publisher:  MDPI Multidisciplinary Digital Publishing Institute
Country:  Switzerland