CuO/ZnO Nanocorals synthesis via hydrothermal technique: growth mechanism and their application as Humidity Sensor

Abstract: We demonstrate hydrothermal synthesis of coral-like CuO nanostructures by selective growth on ZnO nanorods (NR) at low temperatures. During the hydrothermal processing the resultant hydroxylated and eroded surface of ZnO NR becomes favorable for the CuO nanostructures growth via oriented attachments. Heterojunction p-n diodes fabricated from the CuO/ZnO nanocorals (NC) reveal stable and high rectification diode properties with a turn-on voltage ~1.52 V and negligible reverse current. The humidity sensing chara… Show more

“…A charge transport by a Grotthuss chain reaction occurs when H 3 O þ releases a proton to the neighbouring water molecule which accepts it while releasing another proton. H 3 O þ appears in the physisorbed water and serves as extra charge carrier in H 2 O-GaZnO NWs [20,37]. As shown in Fig.…”

Ga-doped ZnO nanowire nanogenerator as self-powered/active humidity sensor with high sensitivity and fast response

“…A charge transport by a Grotthuss chain reaction occurs when H 3 O þ releases a proton to the neighbouring water molecule which accepts it while releasing another proton. H 3 O þ appears in the physisorbed water and serves as extra charge carrier in H 2 O-GaZnO NWs [20,37]. As shown in Fig.…”

Ga-doped ZnO nanowire nanogenerator as self-powered/active humidity sensor with high sensitivity and fast response

“…Many of the aforementioned devices have also been applied as air humidity sensors [13][14][15][16][17][18][19][20], and have been combined with different sensitive materials, such as porous ceramics [21,22], semiconductor materials [23,24] and polymers [25,26] in order to obtain a large response to changes in humidity. In general, the sensitive materials used to detect humidity are hygroscopic, which means that they attract and hold water molecules from the surrounding environment.…”

A novel ultra-high frequency humidity sensor based on a magnetostatic spin wave oscillator

“…The special 3D flower-like ZnO has been paid much attention in recent years [6,7]. CuO is an important semiconductor with a narrow band gap and has been used as the substrate to synthesis various ZnO structures [8]. Recently, graphene with superior electrical conductivities, high surface area and excellent structural flexibility has also been noteworthy in the field of materials science [9].…”

Graphene supported ZnO/CuO flowers composites as anode materials for lithium ion batteries