Robust and conductive mesoporous reduced graphene oxide-silica hybrids achieved by printing and the sol gel route

“…The structures were then immersed in the corresponding sol and later subjected to ammonia vapors for condensation of the gel. The attached silica (or silicoaluminate) xerogel notably enhanced the compressive strength of the rGO scaffolds (in the range 100–400 kPa), inducing a considerable capacity for water absorption as well, thus expecting their potential applications as absorber and pollutant removal [ 334 ], in all cases the structures remained electrically conductive as well.…”

Applications of Ceramic/Graphene Composites and Hybrids

“…The structures were then immersed in the corresponding sol and later subjected to ammonia vapors for condensation of the gel. The attached silica (or silicoaluminate) xerogel notably enhanced the compressive strength of the rGO scaffolds (in the range 100–400 kPa), inducing a considerable capacity for water absorption as well, thus expecting their potential applications as absorber and pollutant removal [ 334 ], in all cases the structures remained electrically conductive as well.…”

Applications of Ceramic/Graphene Composites and Hybrids

“…The peaks observed at 552 and 652 cm −1 in the resulting composite represent the stretching frequency of Si–O. 67 The peaks at 742 and 858 cm −1 represent the hydrogen bonding. The broad peak at 3311 cm −1 represents the NH functional group, and the overlap sharp peak at 2938 cm −1 is due to the OH functional group.…”

N-Phenyl acrylamide-incorporated porous silica-bound graphene oxide sheets with excellent removal capacity for Cr(iii) and Cr(vi) from wastewater

“…It avoids weak processability and enlarges the application elds of prepared products. 3D printing, especially direct ink writing (DIW), [25][26][27]58,131 are used to produce SAs through three steps: ink synthesis, 3D printing, and drying. DIW needs inks that are non-Newtonian uids, whose viscosity decreases with the shear rate increases.…”

“…[21][22][23] Recently, with the development of three-dimensional (3D) printing technology, the combination of 3D printing technology and chemical synthesis provides a new method for the synthesis of SAs in 2020, 24 which can manufacture structurally complex products by the design of 3D models and then improve their adaptability in different occasions. [25][26][27] In addition to the above methods, SAs are also produced by deposition on the other aerogels. 28 As the most commonly used aerogels, SAs exhibit high-temperature resistance (>800 C), 29,30 low density, 31,32 and low thermal conductivity, 33 which make them widely used in both civil and military elds.…”

Research progress and applications of silica-based aerogels – a bibliometric analysis