Labmanager Logo
a group of clear quartz crystals growing upwards out of a surface

iStock, Gizmo

Solving an Age-Old Mystery about Crystal Formation

Incorporation of molecules occurs in two steps, divided by an intermediate state

| 2 min read
Share this Article
Register for free to listen to this article
Listen with Speechify
0:00
2:00

A million years ago, the oldest known species to walk upright like a human, Homo erectus, had a human-like fascination with crystals. Historians can even pin down the possible reasons—crystals didn’t look like anything around at the time—trees, valleys, mountains. Crystals were a material to ponder, a fascinating diversion for the mind.  

To this day, the human preoccupation with the magic of crystals continues to fill the mind’s eye of scientists who have developed ways to use crystals for everything from malaria cures to solar cells and semiconductors, catalysts, and optical elements. Over the years, crystals have become crucial constituents of the technologies that enable modern civilization.    

Lab manager academy logo

Get training in Chemical Hygiene and earn CEUs.

One of over 25 IACET-accredited courses in the Academy.

Certification logo

Chemical Hygiene course

So, for historians creating a timeline of crystal fascination and research spanning a million years, mark January 2024 as the time that University of Houston researcher Peter Vekilov, Frank Worley Professor of Chemical and Biomolecular Engineering, published in PNAS an answer to how crystals are formed and how molecules become a part of them. 

“For decades, crystal growth researchers have dreamt of elucidating the chemical reaction between incoming molecules and the unique sites on a crystal surface that accept them, the kinks,” said Vekilov. The mechanism of that reaction, i.e., the characteristic time scale and length scale, possible intermediates and their stabilities, has remained elusive and subject to speculation for over 60 years.” 

The main obstacle to deeper understanding has been the lack of data on how molecules join in, connected to the complicated process of moving from the solution to where they grow. 

To unravel the chemical reaction between a molecule that dissolves in liquid (solute) and a kink, Vekilov mobilized two transformational strategies, one using full organic pairs and the second using four solvents with distinct structures and functions. Working with the molecules, he combined state-of-the-art experimental techniques, including time-resolved in situ atomic-force microscopy at near-molecular resolution, x-ray diffraction, absorption spectroscopy, and scanning electron microscopy. 

That’s when Vekilov made a revolutionary discovery: incorporation into kinks may occur in two steps divided by an intermediate state, and the stability of this middle state is key in how crystals grow. It basically decides how fast or slow the crystals form because it affects how easily things can join in during the process.  

Want the latest lab management news?

Subscribe to our free Lab Manager Monitor newsletter.

Is the form not loading? If you use an ad blocker or browser privacy features, try turning them off and refresh the page.

Though the new discoveries don’t date back to Homo sapien times, they do solve a 40-year-old riddle for Vekilov. 

“The notions of an intermediate state and its decisive role in crystal growth refute and replace the dominant idea in the field, brought up by A.A. Chernov, my PhD advisor, that the activation barrier for growth is determined by the solute-solvent interactions in the solution bulk,” he said. 

The new paradigm of two-step incorporation, mediated by an intermediate state, could help in understanding how small parts in a liquid can influence the detailed shapes of crystals found in nature.  

“Equally important, this paradigm will guide the search for solvents and additives that stabilize the intermediate state to slow down the growth of, for instance, undesired polymorphs,” Vekilov said. 

- This press release was originally published on the University of Houston website

Loading Next Article...
Loading Next Article...

CURRENT ISSUE - December 2024

2025 Industry and Equipment Trends

Purchasing trends survey results

Lab Manager December 2024 Cover Image
Lab Manager eNewsletter

Stay Connected

Click below to subscribe to Lab Manager Monitor eNewsletter!

Subscribe Today