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Are there any crystals that are theoretically possible, but haven't yet been made?

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Are there any crystals that are theoretically possible, but haven't yet been made?

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Are there any crystals (that exist at standard temperature and pressure) that are theoretically possible, but haven't yet been made?

For example, the predicted requirements for temperature, pressure, materials etc. for crystallisation to occur are too difficult to achieve.

crystallography

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asked 3 hours ago

user52673user52673

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2

2

$begingroup$

Are there any crystals (that exist at standard temperature and pressure) that are theoretically possible, but haven't yet been made?

For example, the predicted requirements for temperature, pressure, materials etc. for crystallisation to occur are too difficult to achieve.

crystallography

share|improve this question

asked 3 hours ago

user52673user52673

1212

$endgroup$

add a comment | 

$begingroup$

Are there any crystals (that exist at standard temperature and pressure) that are theoretically possible, but haven't yet been made?

For example, the predicted requirements for temperature, pressure, materials etc. for crystallisation to occur are too difficult to achieve.

crystallography

share|improve this question

asked 3 hours ago

user52673user52673

1212

$endgroup$

share|improve this question

asked 3 hours ago

user52673user52673

1212

share|improve this question

asked 3 hours ago

user52673user52673

1212

asked 3 hours ago

user52673user52673

1212

asked 3 hours ago

user52673user52673

1212

1 Answer
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When we are talking about prediction of materials, it is generally about the structure and corresponding free energy, not the crystallization process. That being said there are a huge number of inorganic materials that predicted to be stable yet no one has synthesized them. There are computational databases like Materials Project (https://www.materialsproject.org/) that contain automatically generated (theoretical) structures and their estimated free energy, solubility, magnetic properties, bandgap, stability compared to competing phases etc.

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answered 3 hours ago

GregGreg

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3

$begingroup$

When we are talking about prediction of materials, it is generally about the structure and corresponding free energy, not the crystallization process. That being said there are a huge number of inorganic materials that predicted to be stable yet no one has synthesized them. There are computational databases like Materials Project (https://www.materialsproject.org/) that contain automatically generated (theoretical) structures and their estimated free energy, solubility, magnetic properties, bandgap, stability compared to competing phases etc.

share|improve this answer

answered 3 hours ago

GregGreg

4,4491428

$endgroup$

add a comment | 

3

$begingroup$

When we are talking about prediction of materials, it is generally about the structure and corresponding free energy, not the crystallization process. That being said there are a huge number of inorganic materials that predicted to be stable yet no one has synthesized them. There are computational databases like Materials Project (https://www.materialsproject.org/) that contain automatically generated (theoretical) structures and their estimated free energy, solubility, magnetic properties, bandgap, stability compared to competing phases etc.

share|improve this answer

answered 3 hours ago

GregGreg

4,4491428

$endgroup$

add a comment | 

$begingroup$

When we are talking about prediction of materials, it is generally about the structure and corresponding free energy, not the crystallization process. That being said there are a huge number of inorganic materials that predicted to be stable yet no one has synthesized them. There are computational databases like Materials Project (https://www.materialsproject.org/) that contain automatically generated (theoretical) structures and their estimated free energy, solubility, magnetic properties, bandgap, stability compared to competing phases etc.

share|improve this answer

answered 3 hours ago

GregGreg

4,4491428

$endgroup$

share|improve this answer

answered 3 hours ago

GregGreg

4,4491428

answered 3 hours ago

GregGreg

4,4491428

answered 3 hours ago

GregGreg

4,4491428