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Mono-crystal Diamond Nanosheets
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Lab grown diamonds, also known as synthetic diamond , man made diamond or cultured diamonds, are grown in highly controlled laboratory environments using advanced technological processes that duplicate the conditions under which diamonds naturally develop when they form in the mantle, beneath the Earth’s crust.   Lab grown diamonds consist of actual carbon atoms arranged in the characteristic diamond crystal structure. Since they are made of the same material as natural diamonds, they exhibit the same optical and chemical properties.
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Lab grown diamonds, also known as synthetic diamond , man made diamond or cultured diamonds, are grown in highly controlled laboratory environments using advanced technological processes that duplicate the conditions under which diamonds naturally develop when they form in the mantle, beneath the Earth’s crust.   Lab grown diamonds consist of actual carbon atoms arranged in the characteristic diamond crystal structure. Since they are made of the same material as natural diamonds, they exhibit the same optical and chemical properties.
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0
Lab grown diamonds, also known as synthetic diamond , man made diamond or cultured diamonds, are grown in highly controlled laboratory environments using advanced technological processes that duplicate the conditions under which diamonds naturally develop when they form in the mantle, beneath the Earth’s crust.   Lab grown diamonds consist of actual carbon atoms arranged in the characteristic diamond crystal structure. Since they are made of the same material as natural diamonds, they exhibit the same optical and chemical properties.
0
0
Lab grown diamonds, also known as synthetic diamond , man made diamond or cultured diamonds, are grown in highly controlled laboratory environments using advanced technological processes that duplicate the conditions under which diamonds naturally develop when they form in the mantle, beneath the Earth’s crust.   Lab grown diamonds consist of actual carbon atoms arranged in the characteristic diamond crystal structure. Since they are made of the same material as natural diamonds, they exhibit the same optical and chemical properties.
0
0
Lab grown diamonds, also known as synthetic diamond , man made diamond or cultured diamonds, are grown in highly controlled laboratory environments using advanced technological processes that duplicate the conditions under which diamonds naturally develop when they form in the mantle, beneath the Earth’s crust.   Lab grown diamonds consist of actual carbon atoms arranged in the characteristic diamond crystal structure. Since they are made of the same material as natural diamonds, they exhibit the same optical and chemical properties.
0
0
Lab grown diamonds, also known as synthetic diamond , man made diamond or cultured diamonds, are grown in highly controlled laboratory environments using advanced technological processes that duplicate the conditions under which diamonds naturally develop when they form in the mantle, beneath the Earth’s crust.   Lab grown diamonds consist of actual carbon atoms arranged in the characteristic diamond crystal structure. Since they are made of the same material as natural diamonds, they exhibit the same optical and chemical properties.
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Mono-crystal Diamond Nanosheets

The mono-crystal diamond nanosheets is a new type of nanodiamond. Its morphology is flake and with mono-crystal structure. 

The product has the following advantages:

1. Regular morphology, all sheet structure;

2. Good crystallinity;

3. Uniform particle size distribution;

4. Good dispersibility and stable dispersion, can be evenly dispersed in water system or oil system;

5. Abundant surface functional groups.

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Mono-crystal diamond nanosheets

The mono-crystal diamond nanosheets is a new type of nanodiamond. Its morphology is flake and with mono-crystal structure. The specific characterization is as follows:

Transmission electron microscopy (TEM)

1、The Z mean value = 185nm

The Z mean value=185nm TEM


2、The Z mean value =150nm

The Z mean value=150nm TEM


3、The Z mean value = 100nm

The Z mean value=100nm TEM

4、The Z mean value = 70nm

The Z mean value=70nm TEM

4、The Z mean value = 40nm

The Z mean value=40nm TEM

The TEM results the morphologies of nanodiamonds of different particle sizes are all sheet-like structures, and the SAED result show that the products have single crystal structure. The HRTEM image shows the lattice image with a lattice spacing of 0.205 nm that corresponds to the (111) lattice plane of diamond phase, and shows the products have good crystallinity.


X-ray diffraction (XRD)

X-ray diffraction (XRD)


The XRD patterns of the nanodiamond sheets with different size show that the diffraction peaks at 43.7°, 75° and 91° respond to the (111), (220), (311) planes of diamond phase, respectively. In addition, there are no other diffraction peaks at other positions, indicating that there no other impurity phases. The sharp and narrow diffraction peaks indicated that the nanodiamond sheets have strong crystalline. The XRD results are consistent with TEM results.


Particle Size Distribution (PSD)

Particle Size Distribution (PSD) 189Particle Size Distribution (PSD) 150


Particle Size Distribution (PSD) 70NM     Particle Size Distribution (PSD) 100NM



Particle Size Distribution (PSD) 40NM

Note: In addition to above 5 products, we can also customize the granularity according to customer requirements. The 40nm and 70nm products only provide suspension, the concentration is about 10%. The suspension only contains deionized water and diamond nanosheets, and does not contain dispersant. The 100nm thick (inclusive) can provide dry powder or suspension according to customer requirements.




Zeta potential

Z mean value /nm

Zeta potential/mv

185

-31.2

150

-33.9

100

-61.9

70

-84.4

40

-70.6

The Zeta potential values show that our products have good dispersion stability.



Fourier Transform Infrared Spectrometer (FTIR)


Fourier Transform Infrared Spectrometer (FTIR)2

The FTIR pattern shows that the surface of single crystal diamond nanoplates contains a large number of negative hydroxyl groups, we can also make the surface of nano diamond with different functional groups by surface modification, the results are as follows:


Fourier Transform Infrared Spectrometer (FTIR)

UV/VIS/NIR

UV-VIS-NIR



13C MAS NMR



13C MAS NMR


The results of MAS NMR show that the nano diamond only contains sp3 hybrid carbon, does not contain other types of carbon atoms, which agreement with XRD results.

Product physical pictures

Product physical pictures


The product has the following advantages:

1. Regular morphology, all sheet structure;

2. Good crystallinity;

3. Uniform particle size distribution;

4. Good dispersibility and stable dispersion, can be evenly dispersed in water system or oil system;

5. Abundant surface functional groups.


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