Highly sensitive strain sensors based on piezotronic tunneling junction

Abstract: Piezotronics with capacity of constructing adaptive and seamless interactions between electronics/machines and human/ambient are of value in Internet of Things, artificial intelligence and biomedical engineering. Here, we report a kind of highly sensitive strain sensor based on piezotronic tunneling junction (Ag/HfO2/n-ZnO), which utilizes the strain-induced piezoelectric potential to control the tunneling barrier height and width in parallel, and hence to synergistically modulate the electrical transport proc… Show more

“…ZnO (zinc oxide), a semiconducting material with a direct band gap of 3.4 eV and a large binding energy of 60 meV, exhibits many promising properties including piezoelectricity, pyroelectricity, and biocompatibility. 1 It attracts a lot of research attention and finds a variety of applications including luminescent materials, 2 sensors, 3 supercapacitors, 4 batteries, 5,6 solar cells, 7,8 and catalysts. 9,10 For catalytic applications, in particular, ZnO is a critical component of Cu/ZnO/Al 2 O 3 industrial catalysts for methanol synthesis from H 2 /CO/CO 2 11 and plays a very important part in the direct synthesis of light olefins from syngas 12,13 and propane dehydrogenation, 14 yet the detailed mechanisms are still under debate.…”

“…ZnO (zinc oxide), a semiconducting material with a direct band gap of 3.4 eV and a large binding energy of 60 meV, exhibits many promising properties including piezoelectricity, pyroelectricity, and biocompatibility . It attracts a lot of research attention and finds a variety of applications including luminescent materials, sensors, supercapacitors, batteries, , solar cells, , and catalysts. , For catalytic applications, in particular, ZnO is a critical component of Cu/ZnO/Al 2 O 3 industrial catalysts for methanol synthesis from H 2 /CO/CO 2 and plays a very important part in the direct synthesis of light olefins from syngas , and propane dehydrogenation, yet the detailed mechanisms are still under debate. ,− In these processes, the interaction between H 2 and ZnO is believed to be crucial , and has been investigated extensively. IR studies suggested two types of chemisorption of H 2 on ZnO in general, including type I featuring the formation of Zn–H and O–H, − and type II with bridging hydride Zn–H–Zn and O–H···O species, − and these hydride species were found particularly active for catalytic hydrogenation reactions .…”

Unveiling the Surface Structure of ZnO Nanorods and H₂ Activation Mechanisms with ¹⁷O NMR Spectroscopy

“…ZnO (zinc oxide), a semiconducting material with a direct band gap of 3.4 eV and a large binding energy of 60 meV, exhibits many promising properties including piezoelectricity, pyroelectricity, and biocompatibility. 1 It attracts a lot of research attention and finds a variety of applications including luminescent materials, 2 sensors, 3 supercapacitors, 4 batteries, 5,6 solar cells, 7,8 and catalysts. 9,10 For catalytic applications, in particular, ZnO is a critical component of Cu/ZnO/Al 2 O 3 industrial catalysts for methanol synthesis from H 2 /CO/CO 2 11 and plays a very important part in the direct synthesis of light olefins from syngas 12,13 and propane dehydrogenation, 14 yet the detailed mechanisms are still under debate.…”

“…ZnO (zinc oxide), a semiconducting material with a direct band gap of 3.4 eV and a large binding energy of 60 meV, exhibits many promising properties including piezoelectricity, pyroelectricity, and biocompatibility . It attracts a lot of research attention and finds a variety of applications including luminescent materials, sensors, supercapacitors, batteries, , solar cells, , and catalysts. , For catalytic applications, in particular, ZnO is a critical component of Cu/ZnO/Al 2 O 3 industrial catalysts for methanol synthesis from H 2 /CO/CO 2 and plays a very important part in the direct synthesis of light olefins from syngas , and propane dehydrogenation, yet the detailed mechanisms are still under debate. ,− In these processes, the interaction between H 2 and ZnO is believed to be crucial , and has been investigated extensively. IR studies suggested two types of chemisorption of H 2 on ZnO in general, including type I featuring the formation of Zn–H and O–H, − and type II with bridging hydride Zn–H–Zn and O–H···O species, − and these hydride species were found particularly active for catalytic hydrogenation reactions .…”

Unveiling the Surface Structure of ZnO Nanorods and H₂ Activation Mechanisms with ¹⁷O NMR Spectroscopy

“…Capacitive pressure sensors have high sensitivity and are mostly used in electronic skin and brain-computer interfaces, but their high sensitivity also makes them vulnerable to external interference [28] . Piezoelectric sensors are suitable for dynamic measurements and can respond quickly to pressure changes, but not for static tests [29] . The piezoresistive sensor has a simple structure, simple preparation, little in uence by external temperature and humidity, and has a certain scale production and application potential [30] .…”

Melamine sponge skeleton loaded organic conductors for mechanical sensors with high sensitivity and high resolution

“…Wearable sensors that transducing a physical stimulus into electrical signals can track human status and surrounding information by translating these physical stimuli into electrical signals 1,2,3,4 , which have played a vital role in the development of the Internet of Things 5,6,7 , soft robotics 8,9,10 , bioelectronics 11,12,13 , and artificial intelligence 14 . However, these conventional sensors face substantial challenges, such as difficulty in achieving conformable contact or 3D coupling with bio-tissues' curvilinearity.…”

Liquid metal-embedded hydrogel sensors for unsupervised learning enabled sign-to-verbal translation