Gas sensing materials roadmap.
Huaping WangJianmin MaJun ZhangYuezhan FengMani Teja VijjapuSaravanan YuvarajaSandeep G SuryaKhaled N SalamaChengjun DongYude WangQin KuangZamaswazi P TshabalalaDavid E MotaungXianghong LiuJun-Liang YangHaitao FuXiaohong YangXizhong AnShiqiang ZhouBaoye ZiQing-Ju LiuMario UrsoBo ZhangA A AkandeArun K PrasadChu Manh HungNguyen Van DuyNguyen Duc HoaKaidi WuChao ZhangRahul KumarMahesh KumarYoungjun KimJin WuZixuan WuXing YangS A VanalakarJingting LuoHao KanMin LiHo Won JangMarcelo Ornaghi OrlandiAli MirzaeiHyoun Woo KimSang-Sub KimA S M Iftekhar UddinJing WangYi XiaChatchawal WongchoosukAnindya NagSubhas MukhopadhyayNupur SaxenaPragati KumarJing-Shan DoJong-Ho LeeSeongbin HongYujeong JeongGyuweon JungJong-Ho LeeJinwoo ParkMara BruzziChen ZhuRex E GeraldJie HuangPublished in: Journal of physics. Condensed matter : an Institute of Physics journal (2021)
Gas sensor technology is widely utilized in various areas ranging from home security, environment and air pollution, to industrial production. It also hold great promise in non-invasive exhaled breath detection and an essential device in future internet of things. The past decade has witnessed giant advance in both fundamental research and industrial development of gas sensors, yet current efforts are being explored to achieve better selectivity, higher sensitivity and lower power consumption. The sensing layer in gas sensors have attracted dominant attention in the past research. In addition to the conventional metal oxide semiconductors, emerging nanocomposites and graphene-like two-dimensional materials also have drawn considerable research interest. This inspires us to organize this comprehensive 2020 gas sensing materials roadmap to discuss the current status, state-of-the-art progress, and present and future challenges in various materials that is potentially useful for gas sensors.