Global demand for a more green and sustainable economy has impacted several industries, including the nanotechnology and materials field. ‘Green’ synthesis of materials has become a new area of ...

Combustion synthesis represents a versatile and energy-efficient approach for the production of advanced materials, ranging from inorganic ceramics to sophisticated nanocomposites. This method ...

Our work is accomplished by designing and executing efficient and economical chemical syntheses of entities that are not readily available. The facility works primarily with investigators from ...

Coupling reactions are among the most transformative tools in organic chemistry, enabling the formation of crucial chemical bonds in pharmaceuticals, agrochemicals, and advanced materials. Since their ...

Fullerenes are a fascinating class of carbon-based nanomaterials defined by their closed-cage molecular geometries. Their unique structure imparts exceptional electronic, optical, and mechanical ...

Organophosphonate covalently modified polyoxometalates can not only significantly enhance the structural stability of their polyoxometalate units but also precisely "graft" specific functional groups ...

The field of sustainable bio-based nanocomposites has witnessed a surge of innovative research at the intersection of green chemistry, advanced materials ...

The synthesis, characterization, investigation, and utilization of nanomaterials are the main topics in nanotechnologies. A "marvel substance," graphene is indeed the world's strongest, thinnest, and ...

As an engineering plastic having high transparency and impact resistance, polycarbonate (PC) is employed in eyeglass lenses, camera lenses, DVDs, automobile headlights and bulletproof glass. The ...

A new study reveals how different synthesis methods can profoundly impact the structure and function of high entropy oxides, a class of materials with applications in everyday electronic devices. A ...