Litcius/Paper detail

Gas sensing for space: Health and environmental monitoring

Tiago Elias Abi-Ramia Silva, Federico Burisch, Andreas T. Güntner

2024TrAC Trends in Analytical Chemistry35 citationsDOIOpen Access PDF

Abstract

Humanity endeavors to resume crewed missions to the Moon and prepares for the exploration of Mars. These missions will require sustained human presence in space for longer periods than ever before. Space exposes astronauts to demanding conditions, including microgravity, radiation, rapid light-dark cycles, and hazardous chemicals. Gas sensors will be pivotal in preserving astronaut health by providing critical health data (e.g., through breath analysis) and space-resolved environmental information. Here, we explore the recent progress of gas sensors to meet the key needs of space exploration. First, the fundamental sensing principles of electrochemical, chemoresistive, mass-sensitive, and optical sensors are briefly introduced. Then, we connect space-related health challenges with suitable breath markers and sensor solutions, encompassing areas like gut microbiome, muscle activity, cardiovascular health, hepatic and renal function, and circadian rhythm. Finally, environmental exposure guidelines and suitable sensor innovations for distributed air quality monitoring in space vehicles and habitats are presented. • Deep space exploration will require sustained human presence. • Breath analysis enables continuous health monitoring of astronauts. • Space-resolved air quality monitoring is needed for rapid pollutant detection. • Key breath markers and air pollutants with exposure thresholds are identified. • Electrochemical, chemoresistive, mass-sensitive, and optical sensors are reviewed.

Topics & Concepts

Space (punctuation)Environmental monitoringEnvironmental scienceRemote sensingComputer scienceGeographyEnvironmental engineeringOperating systemAdvanced Chemical Sensor TechnologiesGas Sensing Nanomaterials and SensorsAir Quality Monitoring and Forecasting