Novel self-assembled architectures have received significant interest in nanoscience and
nanotechnology. A large variety of nanostructures involving optimized sizes, morphologies …

Developing new synthetic methods for the controlled synthesis of Pt‐based or non‐Pt
nanocatalysts with low or no Pt loading to facilitate sluggish cathodic oxygen reduction …

Although a direct methanol fuel cell with high energy utilization efficiency and low hazardous
emission has broad application prospects in various energy-related fields, the insufficient …

Direct methanol fuel cells (DMFCs) have been considered as an ideal “green” energy
converter because of their high energy-conversion efficiency and low pollution emission …

The high-performance anodic electrocatalysts is pivotal for realizing the commercial
application of the direct formic acid fuel cells. In this work, a simple polyethyleneimine …

Although one-dimensional Pt nanocrystals have long been regarded as ideal electrode
catalysts for fuel cells, the synthetic techniques commonly involve the use of various …

Direct methanol fuel cell technology recently becomes the focus of both academic and
engineering circles, which stimulates the exploitation and utilization of advanced electrode …

The design and construction of high-performance platinum-based electrode catalysts with
acceptable cost are the keys to advances in the field of direct methanol fuel cells (DMFCs) …

Crystalline–amorphous heterostructures have drawn increasing attention in electrocatalysis
by simultaneously taking advantage of the conductive crystalline phase and catalytically …

Ternary Pt-based nanostructures are deemed as promising anode electrocatalysts for low-
temperature and green direct methanol fuel cells (DMFCs) due to their bifunctional …