Fabricating electronic devices from natural, renewable resources is a common goal in
engineering and materials science. In this regard, carbon is of special significance due to its …

Incorporation of non‐equilibrium actions in the sequence of self‐assembly processes would
be an effective means to establish bio‐like high functionality hierarchical assemblies. As a …

The surge in air pollution and respiratory diseases across the globe has spurred significant
interest in the development of flexible gas sensors prepared by low-cost and scalable …

Block copolymer (BCP) represents a special type of polymeric system where each of the
polymer chains is composed of two or more chemically distinct homopolymer blocks that are …

Monitoring nitrogen utilization efficiency and soil temperature in agricultural systems for
timely intervention is essential for crop health with reduced environmental pollution. Herein …

Nanoparticles have long been recognized for their unique properties, leading to exciting
potential applications across optics, electronics, magnetism, and catalysis. These specific …

Heavy carbonaceous materials (HCMs) such as coal are mostly used for nonrenewable
power generation, while derivatives such as tar and pitch are often discarded by-products …

Controlling the three-dimensional (3D) nanoarchitecture of inorganic materials is imperative
for enabling their novel mechanical, optical, and electronic properties. Here, by exploiting …

The rising global population and improved living standards have led to an alarming increase
in non‐communicable diseases, notably cardiovascular and chronic respiratory diseases …

In-depth understanding of block copolymer (BCP) thermodynamics allows to obtain
numerous self-assembled nanostructures and further extend the BCP capabilities to host …