• HOME
  • NEWS
  • EXPLORE
    • CAREER
      • Companies
      • Jobs
    • EVENTS
    • iGEM
      • News
      • Team
    • PHOTOS
    • VIDEO
    • WIKI
  • BLOG
  • COMMUNITY
    • FACEBOOK
    • INSTAGRAM
    • TWITTER
Thursday, July 9, 2026
BIOENGINEER.ORG
No Result
View All Result
  • Login
  • HOME
  • NEWS
  • EXPLORE
    • CAREER
      • Companies
      • Jobs
        • Lecturer
        • PhD Studentship
        • Postdoc
        • Research Assistant
    • EVENTS
    • iGEM
      • News
      • Team
    • PHOTOS
    • VIDEO
    • WIKI
  • BLOG
  • COMMUNITY
    • FACEBOOK
    • INSTAGRAM
    • TWITTER
  • HOME
  • NEWS
  • EXPLORE
    • CAREER
      • Companies
      • Jobs
        • Lecturer
        • PhD Studentship
        • Postdoc
        • Research Assistant
    • EVENTS
    • iGEM
      • News
      • Team
    • PHOTOS
    • VIDEO
    • WIKI
  • BLOG
  • COMMUNITY
    • FACEBOOK
    • INSTAGRAM
    • TWITTER
No Result
View All Result
Bioengineer.org
No Result
View All Result
Home NEWS Science News Chemistry

Graphdiyne based metal atomic catalyst for efficient ammonia synthesis

Bioengineer by Bioengineer
October 28, 2020
in Chemistry
Reading Time: 2 mins read
0
IMAGE
Share on FacebookShare on TwitterShare on LinkedinShare on RedditShare on Telegram

IMAGE

Credit: ©Science China Press

Highly efficient synthesis of ammonia under ambient temperatures and pressures has been drawing increasing attention for wide applications of scientists and industries around the world. Developing highly active and selective materials with transformative catalytic performance for ammonia synthesis is still a giant challenge.

Atomic catalysts (ACs) have long been the research frontier in the field of catalysis because of their unique structures and properties, such as the high atom utilization efficiency, high reaction selectivity and activity, etc. Compared with the traditional single-atom catalysts, graphdiyne (GDY)-based metal ACs feature unique and well-defined chemical and electronic structures, highly catalytic activity and selectivity, which is expected to achieve high selectivity and high yield of ammonia under ambient temperatures and pressures.

Recently, by utilizing the unique properties of GDY, Professor Yuliang Li (Academician of the Chinese Academy of Sciences) published a research paper in National Science Review (NSR), and proposed a new metal ion anchoring-electron transfer-self-reduction strategy for anchoring zero-valent palladium atoms. A free-standing 3D zero-valent atomic catalyst electrode was fabricated and showed high performance in electrocatalysis conversion of nitrogen to ammonia reaction at ambient conditions.

The scanning electron microscopy (SEM), high resolution transmission electron microscopy (TEM), aberration corrected high angle annular dark field (HAADF) scanning transmission electron microscopy (STEM), X-ray near-edge absorption structure (XANES) and extended X-ray absorption fine structure spectrum (EXAFS) results solidly demonstrated that the Pd atoms individually anchored on GDY and exhibited zero-valence state.

This catalyst shows unique advantages such as determined electronic and chemical structure, determined active sites, clear reaction mechanism and process, excellent properties and performance, etc. For example, in neutral conditions, the Pd-GDY catalyst has the highest ammonia yield of 4.45 ± 0.30 mgNH3 mgPd-1 h-1, which is nearly ten orders of magnitude higher than the reported materials; in acidic conditions, its catalytic activity can also reach up to 1.58 ± 0.05 mgNH3 mgPd-1 h-1. The 15N isotope labelling experiments confirmed that the NH3 was formed from the reduction of N2, revealing that the Pd-GDY is highly selective and active toward ammonia synthesis. Moreover, both the ammonia production rate and Faradaic efficiency of the catalyst can be maintained for several cycles without decay, confirming its robust stability.

###

See the article:

Graphdiyne Based Metal Atomic Catalysts for Synthesizing Ammonia

Huidi Yu, Yurui Xue, Lan Hui, Chao Zhang, Yan Fang, Yuxin Liu, Xi Chen, Danyan Zhang, Bolong Huang, Yuliang Li

Natl Sci Rev, 2020, doi: 10.1093/nsr/nwaa213

https://doi.org/10.1093/nsr/nwaa213

Media Contact
Yuliang Li
[email protected]

Related Journal Article

http://dx.doi.org/10.1093/nsr/nwaa213

Tags: Chemistry/Physics/Materials Sciences
Share13Tweet8Share2ShareShareShare2

Related Posts

New Method Enables Electrical Control of Helimagnetic Structures

New Method Enables Electrical Control of Helimagnetic Structures

July 9, 2026
Honey’s Anti-Aging Effects Revealed in Human Skin Cells Study

Honey’s Anti-Aging Effects Revealed in Human Skin Cells Study

July 9, 2026

High-Speed Movies Revolutionize Scientific Disease Research Techniques

July 9, 2026

Scientists Quantify Substances Extracted by Cupping Therapy from Skin

July 9, 2026
Please login to join discussion

POPULAR NEWS

  • Detection of EDCs in Breast Milk and Infant Urine Up to Six Months Highlights Early Exposure Risks

    77 shares
    Share 31 Tweet 19
  • New Drug Candidate Developed at McMaster Shows Potential for Treating Brain Cancer

    58 shares
    Share 23 Tweet 15
  • KTU Researchers Explore Ultrasound’s Role in Enhancing Blood Flow Beyond Diagnostics

    53 shares
    Share 21 Tweet 13
  • 高齢者の骨粗鬆症治療の持続性比較

    51 shares
    Share 20 Tweet 13

About

We bring you the latest biotechnology news from best research centers and universities around the world. Check our website.

Follow us

Recent News

Korea University Opens Korea’s First Center for Refractory GERD

DISSECT combines cytology and spatial transcriptomics for precise cell segmentation

STEM-PD Reveals First Human Trial Results for Parkinson’s Cell Therapy

Subscribe to Blog via Email

Enter your email address to subscribe to this blog and receive notifications of new posts by email.

Join 84 other subscribers
  • Contact Us

Bioengineer.org © Copyright 2023 All Rights Reserved.

Welcome Back!

Login to your account below

Forgotten Password?

Retrieve your password

Please enter your username or email address to reset your password.

Log In
No Result
View All Result
  • Homepages
    • Home Page 1
    • Home Page 2
  • News
  • National
  • Business
  • Health
  • Lifestyle
  • Science

Bioengineer.org © Copyright 2023 All Rights Reserved.