The polyol process: a unique method for easy access to metal nanoparticles with tailored sizes, shapes and compositions
F Fiévet, S Ammar-Merah, R Brayner, F Chau… - Chemical Society …, 2018 - pubs.rsc.org
After about three decades of development, the polyol process is now widely recognized and
practised as a unique soft chemical method for the preparation of a large variety of …
practised as a unique soft chemical method for the preparation of a large variety of …
Harnessing immune response using reactive oxygen Species-Generating/Eliminating inorganic biomaterials for disease treatment
With the increasing understanding of various biological functions mediated by reactive
oxygen species (ROS) in the immune system, a number of studies have been designed to …
oxygen species (ROS) in the immune system, a number of studies have been designed to …
Biodegradation-mediated enzymatic activity-tunable molybdenum oxide nanourchins for tumor-specific cascade catalytic therapy
Recent advances in nanomedicine have facilitated the development of potent nanomaterials
with intrinsic enzyme-like activities (nanozymes) for cancer therapy. However, it remains a …
with intrinsic enzyme-like activities (nanozymes) for cancer therapy. However, it remains a …
Oxidative etching for controlled synthesis of metal nanocrystals: atomic addition and subtraction
Since the discovery of the role of oxidative etching in shape-controlled metal nanostructure
synthesis in 2004, it has become a versatile tool to precisely manipulate the nucleation and …
synthesis in 2004, it has become a versatile tool to precisely manipulate the nucleation and …
Bimetallic Cu–Pd alloy multipods and their highly electrocatalytic performance for formic acid oxidation and oxygen reduction
Shape-controlled synthesis of bimetallic nanomaterials is critical to the improvement of their
catalytic performance for a given catalytic reaction. In this work, we demonstrate a simple …
catalytic performance for a given catalytic reaction. In this work, we demonstrate a simple …
Concave platinum–copper octopod nanoframes bounded with multiple high-index facets for efficient electrooxidation catalysis
S Luo, PK Shen - ACS nano, 2017 - ACS Publications
Multimetallic nanoframes with three-dimensional (3D) catalytic surfaces represent an
emerging class of efficient nanocatalysts. However, it still remains a challenge in …
emerging class of efficient nanocatalysts. However, it still remains a challenge in …
Trimetallic TriStar Nanostructures: Tuning Electronic and Surface Structures for Enhanced Electrocatalytic Hydrogen Evolution.
PtFeCo alloy nanostructures in a TriStar shape with tunable Fe and Co content are
developed for the electrocatalytic hydrogen evolution reaction (HER). With electronic and …
developed for the electrocatalytic hydrogen evolution reaction (HER). With electronic and …
Electrocatalytic water oxidation: An overview with an example of translation from lab to market
Water oxidation has become very popular due to its prime role in water splitting and metal–
air batteries. Thus, the development of efficient, abundant, and economical catalysts, as well …
air batteries. Thus, the development of efficient, abundant, and economical catalysts, as well …
Polyallylamine-functionalized platinum tripods: enhancement of hydrogen evolution reaction by proton carriers
Tailoring the size, controlling the morphology, and designing the metal–organic interface are
three promising strategies to improve the catalytic performance of monometallic noble-metal …
three promising strategies to improve the catalytic performance of monometallic noble-metal …
Anisotropically branched metal nanostructures
Metal nanostructures display a multitude of technologically useful properties that can be
tailored through fine-tuning of certain parameters, such as size, shape and composition. In …
tailored through fine-tuning of certain parameters, such as size, shape and composition. In …