Programmable and modularized gas sensor integrated by 3D printing
The rapid advancement of intelligent manufacturing technology has enabled electronic
equipment to achieve synergistic design and programmable optimization through computer …
equipment to achieve synergistic design and programmable optimization through computer …
Classifications and applications of inkjet printing technology: a review
Inkjet printing technology uses the low-cost direct deposition manufacturing technique for
printing and is applicable in various fields including optics, ceramics, three-dimensional …
printing and is applicable in various fields including optics, ceramics, three-dimensional …
Recent progress in polyaniline-based chemiresistive flexible gas sensors: design, nanostructures, and composite materials
Exposure to poisonous and hazardous gases such as NH3, NO2, and CO poses significant
health risks. High-performance flexible gas sensors are essential for wearable real-time …
health risks. High-performance flexible gas sensors are essential for wearable real-time …
Aerosol‐jet printed sensors for environmental, safety, and health monitoring: a review
An emergent direct‐write approach, aerosol‐jet printing (AJP), is gaining attention for the
deployment of rapid and affordable microadditively manufactured energy‐efficient sensors …
deployment of rapid and affordable microadditively manufactured energy‐efficient sensors …
Challenges and opportunities for printed electrical gas sensors
Printed electrical gas sensors are a low-cost, lightweight, low-power, and potentially
disposable alternative to gas sensors manufactured using conventional methods such as …
disposable alternative to gas sensors manufactured using conventional methods such as …
Aerosol jet printed organic memristive microdevices based on a chitosan: PANI composite conductive channel
In this study we show a chitosan: polyaniline (CPA)-based ink, responding to eco-biofriendly
criteria, specifically developed for the manufacturing of the first organic memristive device …
criteria, specifically developed for the manufacturing of the first organic memristive device …
[HTML][HTML] Gas adsorption performance of Ta doped MoSe2 based on first principles
In this paper, the effect of Ta do** on the gas sensitivity of two-dimensional MoSe 2 is
studied by first-principles calculation, it is found that Ta atoms can be stably doped in Se …
studied by first-principles calculation, it is found that Ta atoms can be stably doped in Se …
Thermal, optical and temperature-dependent electrical properties of poly(aniline-co-pyrrole)/copper alumina nanocomposites for optoelectronic devices
The article deals with the investigation of structural, thermal and temperature-dependent
alternating current (AC) parameters of hetero-structures generated by the reinforcement of …
alternating current (AC) parameters of hetero-structures generated by the reinforcement of …
Adsorption and sensing properties of ZrSe2 monolayer modified with transition metal for CO2, NO2 and SO2 gases: First-principles calculations
K Liu, L Lin, Y Wang - Materials Today Communications, 2023 - Elsevier
In this study, the adsorption of three industrial gases (CO 2, NO 2 and SO 2) on ZrSe 2
monolayers with modified transition metal (TM= Y, Zr, Nb, Mo, Rh, Ru, Pd, Ag) are calculated …
monolayers with modified transition metal (TM= Y, Zr, Nb, Mo, Rh, Ru, Pd, Ag) are calculated …
Recent progress in cellulose-based flexible sensors
N An, J Qin, X Zhou, Q Wang, C Fang, J Guo… - Journal of Renewable …, 2022 - Elsevier
Flexible sensors are attractive due to potential applications in body exercise and ambient
gas monitoring systems. Cellulose and its derivatives have combined superiorities such as …
gas monitoring systems. Cellulose and its derivatives have combined superiorities such as …