• HOME
  • NEWS
  • EXPLORE
    • CAREER
      • Companies
      • Jobs
    • EVENTS
    • iGEM
      • News
      • Team
    • PHOTOS
    • VIDEO
    • WIKI
  • BLOG
  • COMMUNITY
    • FACEBOOK
    • INSTAGRAM
    • TWITTER
Thursday, October 2, 2025
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

Blue pigment discoverer makes key design advance for future durable, vivid pigments

Bioengineer by Bioengineer
December 16, 2019
in Science News
Reading Time: 3 mins read
0
IMAGE
Share on FacebookShare on TwitterShare on LinkedinShare on RedditShare on Telegram

IMAGE

Credit: Mas Subramanian, Oregon State University


CORVALLIS, Ore. – An Oregon State University chemistry researcher who made history a decade ago with the accidental discovery of the first new blue inorganic pigment in more than two centuries is again pushing forward the science of color.

Analyzing the crystal structure of pigments based on hibonite, a mineral found in meteorites, Mas Subramanian of the OSU College of Science has paved the way toward designing more pigments that are stable, durable and non-toxic with vivid hues.

Findings from the study, supported by the National Science Foundation, were published in the American Chemical Society journal, ACS OMEGA.

Subramanian and his team discovered YInMn blue in 2009 when they were experimenting with new materials that could be used in electronics applications.

“We got lucky the first time with YInMn blue, and now we have come up with some design principles,” Subramanian said.

Through much of recorded human history, people around the world have sought inorganic compounds that could be used to paint things blue, often with limited success. Most had environmental or durability issues.

“Most pigments are discovered by chance,” Subramanian said. “The reason is because the origin of the color of a material depends not only on the chemical composition, but also on the intricate arrangement of atoms in the crystal structure. So someone has to make the material first, then study its crystal structure thoroughly to explain the color.”

Before YInMn blue, the last blue discovery was cobalt aluminum oxide-based blue, synthesized by a French chemist in 1802. Cobalt blue remains a dominant commercial pigment because of its intensity of color, ease of synthesis and wide applicability.

Its production, however, requires a significant amount of a cobalt ion, Co2+, that’s hazardous to both humans and the environment.

By analyzing the structure of hibonite-based blue pigments, Subramanian has developed a way to match or surpass cobalt blue’s vividness while using much less of the harmful carcinogenic cobalt ion, or replacing it entirely.

The hibonite-based pigments are more thermally stable than cobalt blue due to their higher preparation temperature and remain unaltered structurally and optically upon exposure to strong acid and alkali.

The researchers report that an oxide containing calcium, aluminum, titanium along with cobalt or nickel can crystallize into a structure similar to hibonite that allows for a series of blue colors.

Compared to traditional cobalt blue, the new blue can be “tuned” by adjusting how much cobalt (Co2+), nickel (Ni2+) and titanium (Ti4+) are placed into the hibonite structure’s three possible “chromophore” environments; those are the parts of a molecule that determine color by reflecting some wavelengths of light while absorbing others.

This study shows the presence of chromophores in a “trigonal bipyramidal-shaped crystal environment” – essentially consisting of two triangular-base pyramids joined base-to-base – is critical for color enhancement.

“This part of the crystal structure of hibonite, like YInMn blue, allows for vivid blue colors with a reddish hue,” Subramanian said. “The hibonite blue exhibits better energy-saving, heat-reflecting properties than traditional cobalt blue due to the presence of titanium and less cobalt content.

“In nature, hibonite is only found in meteorites that have been subjected to thousands of degrees of temperature when they go through the Earth’s atmosphere, so it makes sense that the structure is remarkably stable,” he added. “These kinds of mineral structures are probably the future for designing durable and safe inorganic pigments.”

Determining the key structural ingredients required for making vivid colors should allow for shorter times between pigment discoveries, Subramanian said, adding that science doesn’t always follow a prescribed path.

“Research is like when you go on a journey to see something, and maybe when you get there it wasn’t as interesting you thought it would be, but what you saw along the way was more interesting than you could have imagined.”

###

Media Contact
Mas Subramanian
[email protected]
541-737-8235

Original Source

https://beav.es/ZVd

Related Journal Article

http://dx.doi.org/10.1021/acsomega.9b03255

Tags: Chemistry/Physics/Materials SciencesIndustrial Engineering/ChemistryMaterialsResearch/DevelopmentTechnology/Engineering/Computer Science
Share12Tweet8Share2ShareShareShare2

Related Posts

Link Between AIP and T2DM in NAFLD Patients

October 2, 2025

Probiotics Alleviate Ovarian Angiogenesis in PCOS Models

October 2, 2025

Gene Variants Linked to Antipsychotic-Induced Movement Disorders

October 2, 2025

Key Genes for Fish Adaptation: Spotlight on Mechanisms

October 2, 2025
Please login to join discussion

POPULAR NEWS

  • New Study Reveals the Science Behind Exercise and Weight Loss

    New Study Reveals the Science Behind Exercise and Weight Loss

    90 shares
    Share 36 Tweet 23
  • Physicists Develop Visible Time Crystal for the First Time

    74 shares
    Share 30 Tweet 19
  • New Study Indicates Children’s Risk of Long COVID Could Double Following a Second Infection – The Lancet Infectious Diseases

    69 shares
    Share 28 Tweet 17
  • How Donor Human Milk Storage Impacts Gut Health in Preemies

    64 shares
    Share 26 Tweet 16

About

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

Follow us

Recent News

Link Between AIP and T2DM in NAFLD Patients

Probiotics Alleviate Ovarian Angiogenesis in PCOS Models

Gene Variants Linked to Antipsychotic-Induced Movement Disorders

Subscribe to Blog via Email

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

Join 60 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.