Rapid synthesis of Pt(0) motors-microscrolls on a nickel surface HPtCl-induced galvanic replacement reaction.

In this study, Pt(0) microscrolls are synthesized on polished Ni galvanic replacement reaction (GRR). Employing optical microscopy, the dynamic motion of the catalytic microscrolls as micromotors in HO solutions is revealed. This method offers a rapid fabrication of scrolls from diverse noble metals and alloys.

Membraneless Hydrogen Peroxide Fuel Cells as a Promising Clean Energy Source.

In an in-depth investigation of membraneless hydrogen peroxide-based fuel cells (H2O2 FCs), hydrogen peroxide (H2O2), a carbon-neutral compound, is demonstrated to undergo electrochemical decomposition to produce H2O, O2, and electrical energy. The unique redox properties of H2O2 position it as a viable candidate for sustainable energy applications. The proposed membraneless design addresses the limitations of conventional fuel cells, including fabrication complexities and design challenges.

Bridging the gap: harnessing liquid nanomachine know-how for tackling harmful airborne particulates.

The emergence of "nanomotors", "nanomachines", and "nanorobotics" has transformed dynamic nanoparticle research, driving a transition from passive to active and intelligent nanoscale systems. This review examines two critical fields: the investigation of airborne particles, significant contributors to air pollution, and the rapidly emerging domain of catalytic and field-controlled nano- and micromotors. We examine the basic concepts of nano- and micromachines in motion and envision their possible use in a gaseous medium to trap and neutralize hazardous particulates.