Diamond Technology Heat Management

Advanced lab-grown diamond plates manufactured to deliver impeccable clarity, unmatched purity and precision.

Driving Innovation With Diamond Plates

Aga9 is a lab-grown diamond manufacturing company that marks a focused venture into the non-gem segment. We are here to shape the future, where lab-grown diamond plates will enhance performance in different applications including AI systems, quantum computing and other demanding applications.
Our commitment to sustainability and resource efficiency guides every step, from research and development to production.
Unmatched
Performance
Superior
Transparency
Luminous
Clarity
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Our Products

Single Crystal Diamond Plates

Single crystal diamonds are a process of growing the diamond material layer by layer. They are grown from a gas through the microwave plasma chemical vapour deposition method. Single crystal diamond plates are valuable for quantum communication devices, quantum sensors, deep UV detectors, single-photon detectors and high-energy particle detectors. Lower purity grades of single crystal diamonds are also helpful in mechanical tool development. 
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Polycrystalline Diamond Plates

The growth of polycrystalline diamond plates takes place in the form of multi-orientation giving it the characteristic polycrystallinity. These are grown over a non-diamond substrate via chemical vapor deposition (CVD) process. As these diamond plates undergo polishing, they become optically translucent and even transparent. These properties of polycrystalline diamond plates makes them valuable for optical windows, heat spreaders, tool coatings and electrochemical electrodes.
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What We Deliver 

Optical Grade

The most valuable characteristic of optical-grade diamond plates is their wide optical transparency. It ranges from ultraviolet to far-infrared electromagnetic spectrum.

The high refractive index of 2.38 and low optical absorption coefficient results in minimal signal loss and high-resolution performance across different wavelengths. 

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Electronic Grade

Manufactured with control over impurities, electronic grade diamonds can be incorporated with special features such as nitrogen-vacancy (NV) centers.

Depending upon the device application, the concentration of NV centers would lie between 1 part per billion (ppb) and 10 parts per million (ppm). These ultra-pure diamond plates are ideal for use in semiconductors, quantum devices, and power electronics.

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Thermal Grade

Experience the power of lab-grown diamonds as an effective heat-sink material. With thermal conductivity of 2200 W/mK, these diamonds effectively provide heat management in electronics which makes them an ideal heat spreader material.

Integrating thermal grade lab-grown diamonds ensures optimal thermal management, enhancing device longevity and performance.

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Mechanical  Grade

Mechanical grade diamonds are known for their exceptional hardness, strength, and chemical inertness. These properties make them highly valuable in industries that demand precision manufacturing and excellent tool durability.

These CVD diamond plates are increasingly being recognized as a superior material for industrial tooling, abrasive applications, tool manufacturing, and advanced diamond coatings.

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Our Trusted Alliances

Partnering with industry leaders to bring the highest quality of diamond plates

Recent Highlights

Videos

Featured

Could Lab-Grown Diamonds Power the Next Generation of Smartphones? | AGA9 Semiconductor

In this video, we explore how lab-grown diamond chips could transform the future of smartphones and mobile devices.

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Blogs

Latest News

Role of AI in Lab-Grown Diamond Production

In this blog, let us understand the lab-grown diamond manufacturing process and how AI can help benefit the production process of lab-grown diamonds. 

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Events

Upcoming

April 26, 2026

MRS Spring Meeting & Exhibit 2026

MRS Spring Meeting & Exhibit 2026

Honolulu, HI

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Contact Us

Want to explore how lab-grown diamond plates can be valuable for your business? Reach out to us today and our team will get back to you shortly.

EMAIL US

info@aga9.tech

CALL US

+1 2019370807

VISIT US

551 5th Avenue 31st Floor NY, NY 10176 USA

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Frequently Asked Questions

Get insights on lab-grown diamond plates, their benefits and solutions to demanding
industrial applications:

Which industries use CVD diamond plates?
CVD lab-grown diamond plates are used in opto-electronic, ultra-high vacuum (UHV) windows, high-power laser windows, tool manufacturing and power-electronic device manufacturing.
How stable are lab-grown diamonds under heat?
The maximum operating temperature of lab-grown diamonds stands at 2200 W/mK which is five times more than copper and four times higher than silicon carbide. These characteristics make lab-grown diamonds ideal for managing heat in high-power devices.
What are single-crystal diamond plates?
Single crystal diamond plates are diamond plates manufactured from one continuous diamond crystal lattice. This gives these diamond plates uniformity, mechanical strength and excellent thermal properties.
What is diamond cooling?
Diamond cooling is the process of deploying diamonds for managing and dissipating heat in electronic devices. It is an advanced cooling mechanism to effectively drive away heat from critical components.
Who are the founders of AGA9?
AGA9 was founded by Anil Poddar and Gargi Poddar. Anil Poddar, a veteran entrepreneur has over 40 years of experience in the natural and lab-grown diamond industry. Gargi Poddar brings her years of experience across sales and marketing and envisions a future where lab-grown diamonds will become an essential material for thermal management.

To learn more about our founder's journey, please click here.
Does AGA9 work with any IIT university?
AGA9 has collaborated with the Indian Institute of Technology (IIT) Bombay.
What temperature is used for CVD diamond growth?
CVD diamonds grow at low pressure and low temperature which is typically around 800-1000 torr and 800-1000 degrees Celsius respectively.
Which gases are used for CVD growth?
CVD diamonds are grown via a combination of gases - high-purity methane (CH4) and ultra-high purity hydrogen (H2).
How are lab-grown diamonds grown?
Lab-grown diamonds are mainly produced using two different growth processes including - CVD and HPHT.
How does AGA9 maintain product quality?
At AGA9, we ensure that our diamond plates are created with the lowest impurities and deliver exceptional surface finish. Our diamond crystals undergo no residual stress and are considered to be highly durable.

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Aga9 is a lab-grown diamond manufacturing company dedicated to harnessing the valuable properties of CVD diamonds for industrial applications. We at Aga9 manufacture more than lab-grown diamond plates, we are dedicated to creating brilliance ethically, sustainably and with maximum resource efficiency.

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