To achieve the goal of Green Hydrogen Mission, India needs to work on three fronts
concurrently. These are Feedstock Systems, Circular Economy integration, and the …

The transition toward hydrogen gas (H2) as an eco‐friendly and renewable energy source
necessitates advanced safety technologies, particularly robust sensors for H2 leak detection …

Formic acid (FA) has emerged as a promising candidate for hydrogen energy storage due to
its favorable properties such as low toxicity, low flammability, and high volumetric hydrogen …

A process capable of large-scale formic acid (FA) production via CO 2 hydrogenation is
presented. This study provides the key strategies for use in develo** a viable process for …

Abstract Ultrafine Pd nanoparticles (NPs), immobilized within amine-functionalized yolk-
shell mesoporous silica nanospheres (YSMSNs), have been elaborately prepared to …

Formic acid (FA) has been well recognized as one of the most promising hydrogen carriers.
The dehydrogenation of the FA could offer an efficient process to on-demand hydrogen …

In this work, ultrasmall Pd nanoparticles (NPs) with a mean size of 4.1 nm immobilized by
the MOF-303-derived N-doped carbon (NDC) have been prepared for efficient formic acid …

The rational design of heterogeneous catalysts with remarkable activity and low cost is
essential yet challenging for formic acid (HCOOH, FA) dehydrogenation. Herein, ultrafine …

Develo** heterogeneous catalysts with exceptional catalytic activity over formic acid
(HCOOH, FA) dehydrogenation is imperative to employ FA as an effective hydrogen (H 2) …

The development of improved and less costly catalysts for dehydrogenation of formic acid
(HCOOH) is of general interest for renewable energy technologies involving hydrogen …