Jianglan Shui
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View article: Sustainable chlorine cycle enabled by single atom catalysis
Sustainable chlorine cycle enabled by single atom catalysis Open
In the pursuit of sustainable development, the world faces two key challenges: effective waste management and improved energy efficiency. In this context, it is necessary to propose a chlorine-centered sustainable solution, as the related …
View article: Electron Donation Stabilizes Pt Catalysts in Methanol Fuel Cells
Electron Donation Stabilizes Pt Catalysts in Methanol Fuel Cells Open
An electron-enriched PtNiCo catalyst enabled by TiN support boosts stability in methanol fuel cells by simultaneously overcoming CO poisoning and metal dissolution.
View article: Procyanidin Improves Erectile Function in Rats by Inhibiting PDE5A Activity
Procyanidin Improves Erectile Function in Rats by Inhibiting PDE5A Activity Open
These findings indicate that procyanidin sustains elevated cGMP levels within cells by targeting PDE5A, thereby exhibiting therapeutic efficacy in improving ICP. Procyanidin emerges as a promising PDE5I for treating ED and potentially othe…
View article: Advances and prospects of targeting research for polysaccharide based drugs: A review
Advances and prospects of targeting research for polysaccharide based drugs: A review Open
s: Polysaccharides are garnering increasing attention due to their minimal toxicity and diverse pharmacological effects. Targeting studies of these macromolecules, while not yet fully established, are becoming essential in the development …
View article: Phase‐Transition Microcapacitor Network in Organohydrogel for Absorption‐Dominated Electromagnetic Interference Shielding and Multi‐Mode Intelligent Responsiveness
Phase‐Transition Microcapacitor Network in Organohydrogel for Absorption‐Dominated Electromagnetic Interference Shielding and Multi‐Mode Intelligent Responsiveness Open
Hydrogels/organohydrogels show promise for flexible, intelligent electromagnetic interference (EMI) shielding, yet simultaneously achieving absorption‐dominated shielding performance, excellent mechanical properties and multi‐mode intellig…
View article: Boosting the Performance and Durability of Fe–N–C Fuel Cell Catalysts via Integrating Mo<sub>2</sub>C Clusters
Boosting the Performance and Durability of Fe–N–C Fuel Cell Catalysts via Integrating Mo<sub>2</sub>C Clusters Open
Carbon‐supported nitrogen‐coordinated iron single‐atom (Fe–N–C) catalysts have been regarded among the most promising platinum‐group‐metal‐free catalysts for oxygen reduction reaction (ORR) in proton exchange membrane fuel cells (PEMFCs). …
View article: Boosting the Oxygen Reduction Performance of Fe–N–C Catalyst Using Zeolite as an Oxygen Reservoir
Boosting the Oxygen Reduction Performance of Fe–N–C Catalyst Using Zeolite as an Oxygen Reservoir Open
Non-precious metal electrocatalysts (such as Fe–N–C materials) for the oxygen (O 2 ) reduction reaction demand a high catalyst loading in fuel cell devices to achieve workable performance. However, the extremely low solubility of O 2 in wa…
View article: Recent advances of Fe single atom catalysts towards high-performance proton exchange membrane fuel cells
Recent advances of Fe single atom catalysts towards high-performance proton exchange membrane fuel cells Open
The Fe–N–C catalysts with atomic Fe1 active sites are the most active low-cost alternatives to Pt/C for the large-scale application of proton exchange membrane fuel cells (PEMFCs). However, the activity performance of Fe–N–C catalysts stil…
View article: Mg‐MOF‐74 Derived Defective Framework for Hydrogen Storage at Above‐Ambient Temperature Assisted by Pt Catalyst
Mg‐MOF‐74 Derived Defective Framework for Hydrogen Storage at Above‐Ambient Temperature Assisted by Pt Catalyst Open
Metal–organic frameworks (MOFs) are promising candidates for room‐temperature hydrogen storage materials after modification, thanks to their ability to chemisorb hydrogen. However, the hydrogen adsorption strength of these modified MOFs re…
View article: Applied Voltage‐Activated Fe─N─C Catalysts for Pem Fuel Cells
Applied Voltage‐Activated Fe─N─C Catalysts for Pem Fuel Cells Open
The practical application of non‐precious Fe─N─C catalysts in proton exchange membrane fuel cells (PEMFCs) continues to remain one of the major challenges due to their relatively poor oxygen reduction reaction (ORR) performance in acid. In…
View article: Elongated Fe–N–C containing trace atomic Co dopants for high power density PEMFCs
Elongated Fe–N–C containing trace atomic Co dopants for high power density PEMFCs Open
A superior Fe( t Co)–N–C ORR catalyst with elongated Fe 2 N 8 active sites is developed, showing significant ORR performance in half-cells and a high power density in PEMFCs.
View article: Layered double hydroxide-derived Mg2Ni/TiH1.5 composite catalysts for enhancing hydrogen storage performance of MgH2
Layered double hydroxide-derived Mg2Ni/TiH1.5 composite catalysts for enhancing hydrogen storage performance of MgH2 Open
Developing efficient catalysts is of great significance in improving the sluggish kinetics and high desorption temperature of MgH2 hydrogen storage material. Here, ultrathin NiTi-layered double hydroxide (NiTi-LDH) nanosheets are used as p…
View article: Identification of the optimal doping position of hetero-atoms in chalcogen-doped Fe–N–C catalysts for oxygen reduction reaction
Identification of the optimal doping position of hetero-atoms in chalcogen-doped Fe–N–C catalysts for oxygen reduction reaction Open
The excellent oxygen reduction reaction (ORR) activity of Fe–N–C catalysts in acidic media makes them potential for low-cost proton exchange membrane fuel cells. In recent years, it has been shown that heteroatoms (B, O, S, P, Cl, F, etc.)…
View article: Construction of Co<sub>4</sub> Atomic Clusters to Enable Fe−N<sub>4</sub> Motifs with Highly Active and Durable Oxygen Reduction Performance
Construction of Co<sub>4</sub> Atomic Clusters to Enable Fe−N<sub>4</sub> Motifs with Highly Active and Durable Oxygen Reduction Performance Open
Fe−N−C catalysts with single‐atom Fe−N 4 configurations are highly needed owing to the high activity for oxygen reduction reaction (ORR). However, the limited intrinsic activity and dissatisfactory durability have significantly restrained …
View article: Nanofibrous electrocatalysts
Nanofibrous electrocatalysts Open
A nanofibrous catalyst and method of manufacture. A precursor solution of a transition metal based material is formed into a plurality of interconnected nanofibers by electro-spinning the precursor solution with the nanofibers converted to…
View article: Introduction to the themed issue on frontiers of hydrogen energy and fuel cells
Introduction to the themed issue on frontiers of hydrogen energy and fuel cells Open
Guest editors Lior Elbaz, Minhua Shao, Jianglan Shui and Carlo Santoro introduce the Industrial Chemistry & Materials themed issue on hydrogen energy and fuel cells.
View article: Mechanism and properties of emerging nanostructured hydrogen storage materials
Mechanism and properties of emerging nanostructured hydrogen storage materials Open
Hydrogen storage technology is one of the main challenges that restrict hydrogen utilization. Although there has been great progress in the research of hydrogen storage materials, seldom can they fulfill the criteria for onboard applicatio…
View article: Inorganic microporous membranes for hydrogen separation: Challenges and solutions
Inorganic microporous membranes for hydrogen separation: Challenges and solutions Open
Porous membrane separation is a competitive hydrogen purification technology due to the advantages of environmental friendliness, energy-saving, simple operation, and low cost. Benefiting from the booming development of materials science a…
View article: Phosphated IrMo bimetallic cluster for efficient hydrogen evolution reaction
Phosphated IrMo bimetallic cluster for efficient hydrogen evolution reaction Open
Developing low-cost, high-performance electrocatalysts for the hydrogen evolution reaction (HER) is essential for producing hydrogen from renewable energy sources. Herein, we report phosphated IrMo bimetallic clusters supported by macropor…
View article: Environmentally Tough and Stretchable MXene Organohydrogel with Exceptionally Enhanced Electromagnetic Interference Shielding Performances
Environmentally Tough and Stretchable MXene Organohydrogel with Exceptionally Enhanced Electromagnetic Interference Shielding Performances Open
Conductive hydrogels have potential applications in shielding electromagnetic (EM) radiation interference in deformable and wearable electronic devices, but usually suffer from poor environmental stability and stretching-induced shielding …
View article: On the nature of durable active sites in Fe–N–C fuel cell catalysts
On the nature of durable active sites in Fe–N–C fuel cell catalysts Open
Fe–N–C catalysts have the potential to replace the costly platinum catalysts in fuel cells but face the challenge of instability. It is of vital importance to identify the chemical nature of durable active sites in Fe–N–C. In this perspect…