@crystalgrower.bsky.social
One of CrystalGrower’s most powerful features is our growth modifier function. With it, you can simulate how additives influence crystal shape and surface development, helping you predict and control morphology.
Contact us at team@crystalgrower.org.
#crystalengineering #morphology #growthmodifiers
Contact us at team@crystalgrower.org.
#crystalengineering #morphology #growthmodifiers
August 21, 2025 at 9:30 AM
One of CrystalGrower’s most powerful features is our growth modifier function. With it, you can simulate how additives influence crystal shape and surface development, helping you predict and control morphology.
Contact us at team@crystalgrower.org.
#crystalengineering #morphology #growthmodifiers
Contact us at team@crystalgrower.org.
#crystalengineering #morphology #growthmodifiers
In these two simulations of mefenamic acid, you can see the striking difference:
Without a screw dislocation → The crystal grows as a thin needle.
With a screw dislocation → Growth is more blocky and structured.
Get in touch at team@crystalgrower.org.
#crystalgrowth #materialsscience #AFM
Without a screw dislocation → The crystal grows as a thin needle.
With a screw dislocation → Growth is more blocky and structured.
Get in touch at team@crystalgrower.org.
#crystalgrowth #materialsscience #AFM
February 21, 2025 at 1:44 PM
In these two simulations of mefenamic acid, you can see the striking difference:
Without a screw dislocation → The crystal grows as a thin needle.
With a screw dislocation → Growth is more blocky and structured.
Get in touch at team@crystalgrower.org.
#crystalgrowth #materialsscience #AFM
Without a screw dislocation → The crystal grows as a thin needle.
With a screw dislocation → Growth is more blocky and structured.
Get in touch at team@crystalgrower.org.
#crystalgrowth #materialsscience #AFM
CrystalGrower: Expanding crystal growth simulations
We’re constantly evolving to meet the needs of industry and academia. Here’s a sneak peek at one of our upcoming features...dendritic growth! Watch this simulation unfold in ice.
#ice #materialscience #dendritic #S25MRS
We’re constantly evolving to meet the needs of industry and academia. Here’s a sneak peek at one of our upcoming features...dendritic growth! Watch this simulation unfold in ice.
#ice #materialscience #dendritic #S25MRS
February 6, 2025 at 3:09 PM
CrystalGrower: Expanding crystal growth simulations
We’re constantly evolving to meet the needs of industry and academia. Here’s a sneak peek at one of our upcoming features...dendritic growth! Watch this simulation unfold in ice.
#ice #materialscience #dendritic #S25MRS
We’re constantly evolving to meet the needs of industry and academia. Here’s a sneak peek at one of our upcoming features...dendritic growth! Watch this simulation unfold in ice.
#ice #materialscience #dendritic #S25MRS
Watch Crystal Growth in Action!
CrystalGrower takes you to the forefront of crystal growth with this fascinating visualisation of L-cystine crystal growth.
Model crystal growth dynamics involving multiple modifications.
Understand how growth modifiers impact morphology.
#CrystalGrowth
CrystalGrower takes you to the forefront of crystal growth with this fascinating visualisation of L-cystine crystal growth.
Model crystal growth dynamics involving multiple modifications.
Understand how growth modifiers impact morphology.
#CrystalGrowth
January 16, 2025 at 11:41 AM
Watch Crystal Growth in Action!
CrystalGrower takes you to the forefront of crystal growth with this fascinating visualisation of L-cystine crystal growth.
Model crystal growth dynamics involving multiple modifications.
Understand how growth modifiers impact morphology.
#CrystalGrowth
CrystalGrower takes you to the forefront of crystal growth with this fascinating visualisation of L-cystine crystal growth.
Model crystal growth dynamics involving multiple modifications.
Understand how growth modifiers impact morphology.
#CrystalGrowth
Happy New Year from CrystalGrower!
As we step into 2025, we’re excited to showcase the innovative ways CrystalGrower continues to transform the field of materials science. Here's a simulation of the nanoporous silico-aluminophosphate STA-7 incorporating a screw dislocation.
As we step into 2025, we’re excited to showcase the innovative ways CrystalGrower continues to transform the field of materials science. Here's a simulation of the nanoporous silico-aluminophosphate STA-7 incorporating a screw dislocation.
January 2, 2025 at 9:32 AM
Happy New Year from CrystalGrower!
As we step into 2025, we’re excited to showcase the innovative ways CrystalGrower continues to transform the field of materials science. Here's a simulation of the nanoporous silico-aluminophosphate STA-7 incorporating a screw dislocation.
As we step into 2025, we’re excited to showcase the innovative ways CrystalGrower continues to transform the field of materials science. Here's a simulation of the nanoporous silico-aluminophosphate STA-7 incorporating a screw dislocation.