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A strongly coupled cluster heterostructure with Pt–N-Mo bonding for durable and efficient H2 evolution in anion-exchange membrane water electrolyzers

08.25.25 | Shanghai Jiao Tong University Journal Center

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Alkaline water electrolyzers promise to unlock terawatt-scale green hydrogen, yet their Achilles’ heel remains the cathode: sluggish water-splitting kinetics, Pt nanoparticles that ripen into inert clumps, and price tags that still hover above the US DOE target of US$2 kg⁻¹. Now, a China–US collaboration led by Prof. Zhuangjun Fan (China University of Petroleum) and Prof. Zhenhai Wen (Fujian Institute of Research on the Structure of Matter) delivers a Pt/Mo 2 N cluster heterostructure on N-doped rGO that slashes overpotential, resists degradation for >500 h at 1.5 A cm -2 , and drives the levelized cost of hydrogen down to US$2.02 kg -1 —meeting the long-sought DOE benchmark.

Why This Catalyst Matters

11 mV at 10 mA cm -2 – the lowest alkaline HER onset ever reported for a Pt-based system.
17.7 A mgPt -1 mass activity – 10× commercial Pt/C.
500-h durability at industrial 1.5 A cm -2 with <5 % potential drift.
Techno-economic win – 1 MW plant model hits US$2.02 kg -1 , inside DOE corridor.

Engineering the “Nano-Scissors” Interface

1. Anderson Clusters as Atomic Glue

PtMo 6 polyoxometalate precursor (1–2 nm) is nitrided at 800 °C to yield ~2 nm Pt/Mo 2 N clusters tightly stitched by Pt–N–Mo bonds (EXAFS at 1.56 Å).
• Charge transfer from Pt to Mo₂N (Δ oxidation state +1.45) down-shifts the Pt d-band center (−2.73 eV), weakening H binding * while Mo sites anchor OH *—a molecular-scale “scissors” that cleaves H–OH in one stroke.

2. Operando Evidence

Live Raman at −0.25 V vs RHE tracks the Mo–OH (795 cm -1 ) and Pt–H (2328 cm -1 ) fingerprints simultaneously, revealing a bifunctional Volmer-Tafel pathway akin to acidic kinetics.
DFT snapshots : Volmer barrier drops from 0.93 eV on Pt(111) to 0.36 eV on Pt/Mo 2 N ; ΔG_H* moves to −0.07 eV—thermoneutral sweet-spot.

3. Device-Ready Performance

AEMWE cell (Pt/Mo 2 N–NrGO || NiFe LDH) delivers 1.0 and 2.0 A cm -2 at only 1.66 V and 1.84 V at 80 °C—outperforming commercial Pt/C across the full temperature sweep.
Energy efficiency peaks at 95 % (500 mA cm -2 ) and stays above 88 % at 1 A cm -2 .
Techno-economic model shows CAPEX falls 70 % from 100 to 2000 mA cm -2 while OPEX remains dominated by electricity; optimum sits at 560 mA cm -2 for the US$2.02 kg -1 LCOH.

Toward Gigawatt Deployment

Roll-to-roll spray coating already demonstrated on 12 × 2 cm 2 cells; scale-up roadmap targets m 2 -scale electrodes.
Precursor is earth-abundant : Mo and N-rich urea cut noble-metal demand by 80 % versus state-of-art Pt/C.
Next-gen roadmap : extend cluster strategy to seawater electrolysis and nitrate reduction—turning waste streams into hydrogen hubs.

Stay tuned as this cluster blueprint migrates from lab coin-cells to shipping-container electrolyzers, pushing green hydrogen past the tipping point.

Nano-Micro Letters

10.1007/s40820-025-01798-x

Experimental study

A Strongly Coupled Cluster Heterostructure with Pt–N-Mo Bonding for Durable and Efficient H2 Evolution in Anion-Exchange Membrane Water Electrolyzers

13-Jun-2025

Keywords

Article Information

Contact Information

Bowen Li
Shanghai Jiao Tong University Journal Center
qkzx@sjtu.edu.cn

Source

How to Cite This Article

APA:
Shanghai Jiao Tong University Journal Center. (2025, August 25). A strongly coupled cluster heterostructure with Pt–N-Mo bonding for durable and efficient H2 evolution in anion-exchange membrane water electrolyzers. Brightsurf News. https://www.brightsurf.com/news/8J47D0ZL/a-strongly-coupled-cluster-heterostructure-with-ptn-mo-bonding-for-durable-and-efficient-h2-evolution-in-anion-exchange-membrane-water-electrolyzers.html
MLA:
"A strongly coupled cluster heterostructure with Pt–N-Mo bonding for durable and efficient H2 evolution in anion-exchange membrane water electrolyzers." Brightsurf News, Aug. 25 2025, https://www.brightsurf.com/news/8J47D0ZL/a-strongly-coupled-cluster-heterostructure-with-ptn-mo-bonding-for-durable-and-efficient-h2-evolution-in-anion-exchange-membrane-water-electrolyzers.html.