SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4284882893> ?p ?o ?g. }

Showing items 1 to 100 of ±171 with 100 items per page.

W4284882893 endingPage "10978" @default.
W4284882893 startingPage "10968" @default.
W4284882893 abstract "Real-time monitoring of health threatening gases for chemical safety and human health protection requires detection and discrimination of trace gases with proper gas sensors. In many applications, costly, bulky, and power-hungry devices, normally employing optical gas sensors and electrochemical gas sensors, are used for this purpose. Using a single miniature low-power semiconductor gas sensor to achieve this goal is hardly possible, mostly due to its selectivity issue. Herein, we report a dual-mode microheater integrated nanotube array gas sensor (MINA sensor). The MINA sensor can detect hydrogen, acetone, toluene, and formaldehyde with the lowest measured limits of detection (LODs) as 40 parts-per-trillion (ppt) and the theoretical LODs of ∼7 ppt, under the continuous heating (CH) mode, owing to the nanotubular architecture with large sensing area and excellent surface catalytic activity. Intriguingly, unlike the conventional electronic noses that use arrays of gas sensors for gas discrimination, we discovered that when driven by the pulse heating (PH) mode, a single MINA sensor possesses discrimination capability of multiple gases through a transient feature extraction method. These above features of our MINA sensors make them highly attractive for distributed low-power sensor networks and battery-powered mobile sensing systems for chemical/environmental safety and healthcare applications." @default.
W4284882893 created "2022-07-09" @default.
W4284882893 creator A5008931071 @default.
W4284882893 creator A5011611615 @default.
W4284882893 creator A5017825677 @default.
W4284882893 creator A5019255194 @default.
W4284882893 creator A5033753893 @default.
W4284882893 creator A5061180234 @default.
W4284882893 creator A5061509885 @default.
W4284882893 creator A5072434200 @default.
W4284882893 creator A5085689796 @default.
W4284882893 date "2022-07-07" @default.
W4284882893 modified "2023-10-06" @default.
W4284882893 title "Microheater Integrated Nanotube Array Gas Sensor for Parts-Per-Trillion Level Gas Detection and Single Sensor-Based Gas Discrimination" @default.
W4284882893 cites W12906168 @default.
W4284882893 cites W1485601174 @default.
W4284882893 cites W1980119517 @default.
W4284882893 cites W1985768241 @default.
W4284882893 cites W1987031512 @default.
W4284882893 cites W1993900649 @default.
W4284882893 cites W1997197841 @default.
W4284882893 cites W2004989171 @default.
W4284882893 cites W2017368258 @default.
W4284882893 cites W2027915112 @default.
W4284882893 cites W2035593639 @default.
W4284882893 cites W2056046179 @default.
W4284882893 cites W2071340400 @default.
W4284882893 cites W2079052383 @default.
W4284882893 cites W2089131050 @default.
W4284882893 cites W2092314204 @default.
W4284882893 cites W2116636774 @default.
W4284882893 cites W2149688044 @default.
W4284882893 cites W2155624205 @default.
W4284882893 cites W2157907346 @default.
W4284882893 cites W2169505449 @default.
W4284882893 cites W2292259588 @default.
W4284882893 cites W2295124130 @default.
W4284882893 cites W2300423056 @default.
W4284882893 cites W2315532704 @default.
W4284882893 cites W2319050221 @default.
W4284882893 cites W2327383498 @default.
W4284882893 cites W2333611072 @default.
W4284882893 cites W2346338627 @default.
W4284882893 cites W2496143465 @default.
W4284882893 cites W2508877081 @default.
W4284882893 cites W2571408294 @default.
W4284882893 cites W261909388 @default.
W4284882893 cites W2735261283 @default.
W4284882893 cites W2748374286 @default.
W4284882893 cites W2762371850 @default.
W4284882893 cites W2781764043 @default.
W4284882893 cites W2790502162 @default.
W4284882893 cites W2797555838 @default.
W4284882893 cites W2803520030 @default.
W4284882893 cites W2809491042 @default.
W4284882893 cites W2888561501 @default.
W4284882893 cites W2921399309 @default.
W4284882893 cites W2941759584 @default.
W4284882893 cites W2954255493 @default.
W4284882893 cites W2967729758 @default.
W4284882893 cites W2973754009 @default.
W4284882893 cites W2980379975 @default.
W4284882893 cites W2984480462 @default.
W4284882893 cites W2988101072 @default.
W4284882893 cites W2992782242 @default.
W4284882893 cites W3012364110 @default.
W4284882893 cites W3022895793 @default.
W4284882893 cites W3025224585 @default.
W4284882893 cites W3044415397 @default.
W4284882893 cites W3048903158 @default.
W4284882893 cites W3087430307 @default.
W4284882893 cites W3087830691 @default.
W4284882893 cites W3126308411 @default.
W4284882893 cites W3137477308 @default.
W4284882893 cites W3156920854 @default.
W4284882893 cites W3169346988 @default.
W4284882893 cites W3199023548 @default.
W4284882893 cites W3201582002 @default.
W4284882893 cites W4200330482 @default.
W4284882893 cites W4232527025 @default.
W4284882893 cites W4237544501 @default.
W4284882893 cites W814858607 @default.
W4284882893 cites W2791796141 @default.
W4284882893 doi "https://doi.org/10.1021/acsnano.2c03372" @default.
W4284882893 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35797450" @default.
W4284882893 hasPublicationYear "2022" @default.
W4284882893 type Work @default.
W4284882893 citedByCount "13" @default.
W4284882893 countsByYear W42848828932022 @default.
W4284882893 countsByYear W42848828932023 @default.
W4284882893 crossrefType "journal-article" @default.
W4284882893 hasAuthorship W4284882893A5008931071 @default.
W4284882893 hasAuthorship W4284882893A5011611615 @default.
W4284882893 hasAuthorship W4284882893A5017825677 @default.
W4284882893 hasAuthorship W4284882893A5019255194 @default.
W4284882893 hasAuthorship W4284882893A5033753893 @default.
W4284882893 hasAuthorship W4284882893A5061180234 @default.
W4284882893 hasAuthorship W4284882893A5061509885 @default.