Nanoparticle design and assembly for p-type metal oxide gas sensors
Metal oxide semiconductors have wide band gaps with tailorable electrical properties and
high stability, suitable for chemiresistive gas sensors. p-Type oxide semiconductors …
high stability, suitable for chemiresistive gas sensors. p-Type oxide semiconductors …
Inkjet‐printed rGO/binary metal oxide sensor for predictive gas sensing in a mixed environment
Selectivity for specific analytes and high‐temperature operation are key challenges for
chemiresistive‐type gas sensors. Complementary hybrid materials, such as reduced …
chemiresistive‐type gas sensors. Complementary hybrid materials, such as reduced …
Effect of ZnO morphologies on its sensor response and corresponding E-nose performance
KR Sinju, BB Bhangare, J Prakash, AK Debnath… - Materials Science and …, 2023 - Elsevier
Understanding the intricate relationship among the gas sensing data produced from different
ZnO morphologies is crucial for optimizing electronic nose (e-nose) performance. In the …
ZnO morphologies is crucial for optimizing electronic nose (e-nose) performance. In the …
A Review of the High-Performance Gas Sensors Using Machine Learning
S Yang, G Lei, H Xu, Z Lan, Z Wang, H Gu - Machine Learning for …, 2023 - Springer
High-performance gas sensors are of great importance to accurately identify/detect pollutant
gases and monitor their concentrations in the environment to ensure human safety in daily …
gases and monitor their concentrations in the environment to ensure human safety in daily …
A novel high accuracy fast gas detection algorithm based on multi-task learning
X Wang, W Zhao, R Ma, J Zhuo, Y Zeng, P Wu, J Chu - Measurement, 2024 - Elsevier
As an advanced sensor system, electronic nose (E-nose) has been widely used in the field
of gas analysis. A novel algorithm that leverages Long Short-Term Memory Attention as a …
of gas analysis. A novel algorithm that leverages Long Short-Term Memory Attention as a …
Inkjet-printed MOS-based MEMS sensor array combined with one-dimensional convolutional neural network algorithm for identifying indoor harmful gases
To achieve a highly accurate and efficient analysis of mixed gases, it is crucial to develop an
electronic nose system with high sensitivity of gas sensors and low data processing …
electronic nose system with high sensitivity of gas sensors and low data processing …
Semiquantitative classification of two oxidizing gases with graphene-based gas sensors
M Lind, V Kiisk, M Kodu, T Kahro, I Renge, T Avarmaa… - Chemosensors, 2022 - mdpi.com
Miniature and low-power gas sensing elements are urgently needed for a portable
electronic nose, especially for outdoor pollution monitoring. Hereby we prepared …
electronic nose, especially for outdoor pollution monitoring. Hereby we prepared …
Learning the Use of Artificial Intelligence in Heterogeneous Catalysis
X Bokhimi - Frontiers in Chemical Engineering, 2021 - frontiersin.org
We describe the use of artificial intelligence techniques in heterogeneous catalysis. This
description is intended to give readers some clues for the use of these techniques in their …
description is intended to give readers some clues for the use of these techniques in their …
[引用][C] Sparse Autoencoder-Based Feature Transfer Learning Framework for Hydrogen Monitoring Using Microfluidic Olfaction Detectors
M Hoorfar, H Mirzaei, M Ramezankhani, E Earl… - SNB-D-22-01180