unist UNIST News Center UNIST News Center
KOREAN ENGLISH
  • HOME
  • Contents
    • All News
    • News
    • People
    • Community Contribution
    • Research
    • UNIST Receives KRW 1 Billion Donation to Boost Youth Entrepreneurship 2 days ago
    • Mechanophysical Synthesis of Core/Shell Hybrid Supraparticles 3 days ago
    • Enhanced Stability of Semitransparent Organic Solar Modules through Molecular Asymmetry 4 days ago
    View all
    • UNIST Receives KRW 1 Billion Donation to Boost Youth Entrepreneurship 2 days ago
    • UNIST Signs Strategic Partnership with Microsoft Korea to Accelerate AI-Driven Digital Transformation 1 week ago
    • UNIST and COMWEL Join Forces to Cultivate AI Talent 2 weeks ago
    View all
    • Professor Cheolhyeon Kwon’s Team Wins 2nd Place at the 24th Roboracer Autonomous Grand Prix Competition 2 weeks ago
    • SuPine Therapeutics Inc. Achieves Top Honor at the 2025 SelectUSA Pitch Competition 4 weeks ago
    • Renowned Instructor Ji Young Lee Joins UNIST to Lead AI Consciousness and Ethics Education 1 month ago
    View all
    • UNIST Connects with Community Through Spring Concert for Children with Disabilities 2 months ago
    • Flower Beds at UNIST Given A New Lease of Life! 4 years ago
    • UNIST Promotes Research Cooperation for Rehabilitation of People with Speical Needs 5 years ago
    View all
    • Mechanophysical Synthesis of Core/Shell Hybrid Supraparticles 3 days ago
    • Enhanced Stability of Semitransparent Organic Solar Modules through Molecular Asymmetry 4 days ago
    • Dynamics of Speed: Uncovering the Role of Active-Site Water in Carbonic Anhydrase 6 days ago
    View all
  • For Journalists
    • For Journalists
    • UNIST at a Glance
  • About News Center
    • About News Center
    • News & Communications Team
Menu
  • HOME
  • Contents
    • All News
    • News
    • People
    • Community Contribution
    • Research
    • UNIST Receives KRW 1 Billion Donation to Boost Youth Entrepreneurship 2 days ago
    • Mechanophysical Synthesis of Core/Shell Hybrid Supraparticles 3 days ago
    • Enhanced Stability of Semitransparent Organic Solar Modules through Molecular Asymmetry 4 days ago
    View all
    • UNIST Receives KRW 1 Billion Donation to Boost Youth Entrepreneurship 2 days ago
    • UNIST Signs Strategic Partnership with Microsoft Korea to Accelerate AI-Driven Digital Transformation 1 week ago
    • UNIST and COMWEL Join Forces to Cultivate AI Talent 2 weeks ago
    View all
    • Professor Cheolhyeon Kwon’s Team Wins 2nd Place at the 24th Roboracer Autonomous Grand Prix Competition 2 weeks ago
    • SuPine Therapeutics Inc. Achieves Top Honor at the 2025 SelectUSA Pitch Competition 4 weeks ago
    • Renowned Instructor Ji Young Lee Joins UNIST to Lead AI Consciousness and Ethics Education 1 month ago
    View all
    • UNIST Connects with Community Through Spring Concert for Children with Disabilities 2 months ago
    • Flower Beds at UNIST Given A New Lease of Life! 4 years ago
    • UNIST Promotes Research Cooperation for Rehabilitation of People with Speical Needs 5 years ago
    View all
    • Mechanophysical Synthesis of Core/Shell Hybrid Supraparticles 3 days ago
    • Enhanced Stability of Semitransparent Organic Solar Modules through Molecular Asymmetry 4 days ago
    • Dynamics of Speed: Uncovering the Role of Active-Site Water in Carbonic Anhydrase 6 days ago
    View all
  • For Journalists
    • For Journalists
    • UNIST at a Glance
  • About News Center
    • About News Center
    • News & Communications Team
Home Carbon dioxide

Mechanochemical Approach for Low-Temperature CO2 Capture and Conversion

Their findings have been published in Nature Nanotechnology on June 5, 2025.

Mechanochemical Approach for Low-Temperature CO2 Capture and Conversion

Abstract Developing a direct carbon dioxide (CO2) capture and methanation method is one of the most important challenges to achieving carbon neutrality. However, converting CO2 into methane (CH4) kinetically requires the activation of stabl... Read More

Jun 11, 2025 By JooHyeon Heo Research
Share 0
Tweet 0
Share 0

Unveiling Electrode–Electrolyte Design-Based NO Reduction for NH3 Synthesis

Their findings have been featured as the cover page of the November 2020 issue of ACS Energy Letters.

Unveiling Electrode–Electrolyte Design-Based NO Reduction for NH3 Synthesis

A joint research team, affiliated with UNIST has unveiled a novel method of converting nitric oxide (NO), which is the main cause of fine dust, into pure ammonia (NH3) without emitting toxic gases, such as carbon dioxide (CO2). This breakth... Read More

Apr 06, 2021 By JooHyeon Heo Research
Share 0
Tweet 0
Share 0

Researchers Develop New Catalyst for Aqueous Zn–CO2 System

Their findings have been published in the Journal Materials Chemistry A on May 29, 2020.

Researchers Develop New Catalyst for Aqueous Zn–CO2 System

An international research team, affiliated with UNIST has developed a new electrocatalyst for aqueous Zn–CO2 system, while eliminating carbon the harmful greenhouse gas carbon dioxide (CO2). This is expected to further accelerate the commer... Read More

Aug 10, 2020 By JooHyeon Heo Research
Share 0
Tweet 0
Share 0

Scientists Turn Carbon Emissions into Usable Energy

Their findings have been published in the November 2018 issue of iScience, a sister journal to Cell.

Scientists Turn Carbon Emissions into Usable Energy

A recent study, affiliated with UNIST has developed a system that produces electricity and hydrogen (H2) while eliminating carbon dioxide (CO2), which is the main contributor of global warming. Published This breakthrough has been led by Pr... Read More

Dec 11, 2018 By JooHyeon Heo Research
Share 0
Tweet 0
Share 0

UNIST Researchers Introduce Novel Solution for Hydrogen Storage

Their findings have been published in Angewandte Chemie, the leading international chemistry journal.

UNIST Researchers Introduce Novel Solution for Hydrogen Storage

Hydrogen is the lightest and the most abundant element in the universe. It is also a clean-burning fuel in that when combined with oxygen in a fuel cell, it produces no harmful byproducts upon combustion. Indeed, the only byproducts, genera... Read More

Mar 19, 2018 By JooHyeon Heo Research
Share 0
Tweet 0
Share 0

Global News

  • New Smartphone App Offers Convenient Way to Diagnose Sleep Apnea
  • [Korea Bizwire] June, 4, 2024

  • New study finds clue to predict pancreatic cancer's progression and metastasis
  • [Korea Biomedical Rev.] June, 4, 2024

  • Study reveals promising technology for sepsis treatment using functional magnetic nanoclusters
  • [Phys.org] May,27, 2024

Popular

  • MXene, One-Tenth Hair Thickness, Offers Exceptional High-Frequency EMI Shielding

    MXene, One-Tenth Hair Thickness, Offers Except..

    May 30, 2025
  • UNIST Secures 38.5 Billion KRW Research Project to Address Climate Change through AI and Satellite Technology

    UNIST Secures 38.5 Billion KRW Research Projec..

    May 29, 2025
  • UNIST and SK On Strengthen Collaboration to Cultivate Battery Talent and Enhance R&D Capabilities

    UNIST and SK On Strengthen Collaboration to Cu..

    May 28, 2025

UNIST E-Newsletters

Sign up today to receive a copy of the UNIST e-newsletter

<Personal Information Processing Consent Form>
UNIST wishes to obtain consent from Newsletter subscribers to the collection and processing of their personal information. Please read this document in its entirety before giving consent (select each blank as appropriate).

1. Items to be collected : e-mail address
2. Purposes of collection and use : to provide Newsletter service
3. Period of holding and use : until your cancelation
4. You have the right to refuse consent. However, you may not be provided with the aforementioned services due to rejection.
I give my consent for all personal information to be processed for the purposes described in this document and understand that I can withdraw my consent at any time.
  • UNIST Daily
  • UNIST Newsletter
  • For Journalists

Hot Video

[UNIST Webinar] AI enabled Computational Imaging for Biomedical Applications

Instagram

Instagram has returned empty data. Please authorize your Instagram account in the plugin settings .
logo
50 UNIST-gil, Ulsan 44919, Republic of Korea
Phone : +82 52 217 0114 /Admissions : +82 52 217 1120
  • Contents
    • News
    • People
    • Research
    • Photo & Video
  • For Journalists
    • UNIST at a Glance
  • About News Center
    • About News Center
    • UNIST Newsletter
    • Send Your Story Ideas
    • News & Communications Team