Preparation of organic/inorganic hybrid nanocomposites by ultraviolet irradiation and their packaging applications for organic optoelectronic devices

“…Hybrids of inorganic-organic materials are expected to hold a pivotal role in future research topics, since the structural idea beyond them focuses on combining the desired properties out of each component. Accounts on hybrid materials are prominent in the fields of, e.g., electrochemistry (Zoubi et al 2020), sensors (Jiang et al 2013;Kladsomboon et al 2018) optoelectronic devices (Majee et al 2015;Chung et al 2011) and fuel cells (Nie et al 2017). Organic layers sandwiched between inorganic layers can contribute to the harvesting of thermoelectric energy in thin film structures by decreasing the thermal conductivity of the material without negative influence on the electrical properties (Wan et al 2015(Wan et al , 2017.…”

Cellulose-inorganic hybrids of strongly reduced thermal conductivity

“…Hybrids of inorganic-organic materials are expected to hold a pivotal role in future research topics, since the structural idea beyond them focuses on combining the desired properties out of each component. Accounts on hybrid materials are prominent in the fields of, e.g., electrochemistry (Zoubi et al 2020), sensors (Jiang et al 2013;Kladsomboon et al 2018) optoelectronic devices (Majee et al 2015;Chung et al 2011) and fuel cells (Nie et al 2017). Organic layers sandwiched between inorganic layers can contribute to the harvesting of thermoelectric energy in thin film structures by decreasing the thermal conductivity of the material without negative influence on the electrical properties (Wan et al 2015(Wan et al , 2017.…”

Cellulose-inorganic hybrids of strongly reduced thermal conductivity

“…Low-dimensional semiconductor nanostructures have attracted considerable technical and scientific interest due to their peculiar fundamental properties, like optical, electronic, magnetic, mechanical, and chemical properties, which are useful for optoelectronic [1], field emission [2], energy conversion [3,4], catalysis [5], and sensing devices [6]. So far, nanomaterials, such as plate-like ZnS [7], hierarchical ZnO [8], flower-like CdSe and ZnO [9,10], bioinspired TiO 2 [11], ultrafine CuS nanocrystals [12], etc, have been widely reported.…”

Facile method to prepare CdS nanostructure based on the CdTe films

“…1 Due to their remarkable electrical, optical or mechanical properties, these types of hybrid composites are very interesting for applications in nanoscience and nanotechnology. [2][3][4][5] In the literature, many studies have focused on the production and characterization of these systems, particularly on those containing gold nanoparticles (Au NPs) [6][7][8] that exhibit unusual physical, chemical, and biocompatibility properties, of interest for a wide range of applications (optics, photonics, catalysis, and biomedical elds). It was found that the properties of such metal nanocomposites strongly depend on the particle size, shape, assembly state and surrounding dielectric environment.…”

Tuning the size and the photocatalytic performance of gold nanoparticles in situ generated in photopolymerizable glycomonomers