Skip to main content

Naieel Technology Announces Breakthrough in Industrial-Scale Production of Boron Nitride Nanotubes

COLUMBUS, OH / ACCESSWIRE / September 26, 2024 / Naieel Technology, under the visionary leadership of Dr. Jaewoo Kim, has achieved a groundbreaking milestone in the production of Boron Nitride Nanotubes (BNNT). This revolutionary advancement positions the company to meet the growing demand for BNNT across various industries, from semiconductors to space engineering.

BNNT are known for their exceptional properties. Dr. Kim shares, "BNNT have high thermal conductivity, mechanical strength, chemical stability, electrical insulation, and cosmic radiation shielding, etc. However, producing these nanotubes on an industrial scale has long been a challenge due to the high reaction temperatures and energy consumption required." Other traditional methods like laser and plasma synthesis might be costly and inefficient which limits their applications in broader industrial uses.

Dr. Kim, a respected expert in this field, has found a way to overcome the vast challenges with a proprietary thermochemical reaction process. "We've developed a method using a conventional furnace that operates continuously, 24/7, with significantly lower energy consumption," explains Dr. Kim. "This allows us to produce several tons of BNNT annually with small pilot systems which is essential in addressing the limitations of previous methods and enabling large-scale production."

BNNT TEM image

Naieel Technology's innovative process not only reduces energy costs but also makes BNNT more accessible for industrial applications. "The misconception that BNNT is too expensive and not widely available has been a barrier," noted Dr. Kim. "Our ability to produce BNNT at scale showcases the progress we've made. We are redefining its use in critical industries."

The implications of this breakthrough are vast. BNNT' unique properties make it ideal for use in semiconductor thermal management, lithium batteries, and aerospace applications. As industries face increasing demands for advanced materials, Naieel Technology's solution is expected to have a transformative impact.

BNNT SEM image

"Thermal issues in semiconductors are a growing concern as devices become smaller and more powerful," Dr. Kim added. "BNNT offers a solution with superior thermal conductivity even with a small amount added to conventional thermal materials. We are currently working with industry partners to evaluate and expand its application in these areas."

Looking ahead, Naieel Technology is prepared to scale production further as demand increases. The company is also exploring new applications for BNNT, including the possibilities for defense, energy storage, and space, where its properties could offer significant advantages.

About Naieel Technology:

Naieel Technology is a pioneering company at the forefront of advanced materials research and development, specializing in the large-scale production of Boron Nitride Nanotubes (BNNT). Founded and led by Dr. Jaewoo Kim, Naieel Technology leverages cutting-edge thermochemical reaction processes to produce BNNT with unprecedented efficiency and scalability. The company is committed to pushing the boundaries of innovation, providing high-performance solutions to industries ranging from semiconductors to aerospace. With a focus on sustainability, energy efficiency, and industrial applicability, Naieel Technology is dedicated to driving the future of nanomaterials and their transformative impact on the global market.

For more information on Naieel Technology's BNNT production or to discuss collaboration opportunities, please visit www.naieel.com.

Contact Information:

Company: Naieel Technology
Contact Name: Dr. Jaewoo Kim, Founder and CEO
Address: Columbus, Ohio
Email: naieelco@gmail.com / kimj@naieel.com
Phone: 734-800-6431
Website: www.naieel.com

SOURCE: Naieel Technology



View the original press release on accesswire.com

Data & News supplied by www.cloudquote.io
Stock quotes supplied by Barchart
Quotes delayed at least 20 minutes.
By accessing this page, you agree to the following
Privacy Policy and Terms and Conditions.