Crystal Growth and Design

Aims & Scope

The aim of Crystal Growth & Design is to stimulate crossfertilization of knowledge among scientists and engineers working in the fields of crystal growth, crystal engineering, and the industrial application of crystalline materials.

Crystal Growth & Design publishes theoretical and experimental studies of the physical, chemical, and biological phenomena and processes related to the design, growth, and application of crystalline materials.

Synergistic approaches originating from different disciplines and technologies and integrating the fields of crystal growth, crystal engineering, intermolecular interactions, and industrial application are encouraged.

View Aims & Scope

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Metrics & Ranking

Impact Factor

Year	Value
2025	3.4
2024	3.20

SJR (SCImago Journal Rank)

Year	Value
2024	0.633

Quartile

Year	Value
2024	Q2

h-index

Year	Value
2024	180

Journal Rank

Year	Value
2024	9117

Journal Citation Indicator

Year	Value
2024	8363

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Abstracting & Indexing

Journal is indexed in leading academic databases, ensuring global visibility and accessibility of our peer-reviewed research.

• Scopus
• Google Scholar
• Web of Science

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Subjects & Keywords

Journal’s research areas, covering key disciplines and specialized sub-topics in Chemistry, Materials Science and Physics and Astronomy, designed to support cutting-edge academic discovery.

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Most Cited Articles

The Most Cited Articles section features the journal's most impactful research, based on citation counts. These articles have been referenced frequently by other researchers, indicating their significant contribution to their respective fields.

• Applied Topological Analysis of Crystal Structures with the Program Package ToposPro

  Citation: 2848

  Authors: Vladislav A., Alexander P., Davide M.

• Crystal Growth of the Perovskite Semiconductor CsPbBr₃: A New Material for High-Energy Radiation Detection

  Citation: 1447

  Authors: Constantinos C., Christos D., John A., Zhifu, Maria, Jino, Thomas C., Arief C., Duck Young, Arthur J., Bruce W., Mercouri G.

• Pharmaceutical Cocrystals and Their Physicochemical Properties

  Citation: 1309

  Authors: Nate, Ann

• Polymorphs, Salts, and Cocrystals: What’s in a Name?

  Citation: 904

  Authors: Srinivasulu, Rahul, Arvind K., Kumar, Miranda L., Angshuman Roy, Gautam R., Amol G., Ritesh, Nagakiran, Preetam P., Soumyajit, Pramod Kumar, N. Rajesh, Ram R. K. R., Piotr, Poonam, Dinesh, Vineet, Brian, Arijit, Gargi, Allan S., Vibha, Arunachalam, T., C. Malla, Nair, Robin D., T. N. Guru, Palash, Ning, Ganesh, Amit, Changquan C., Jennifer A., Ram, Tejender S., Rajesh, Sajesh P., Srinu, Venu R., Narayan, Peddy, David R., Michael J.

• Solubility Advantage of Amorphous Drugs and Pharmaceutical Cocrystals

  Citation: 892

  Authors: N. Jagadeesh, Ashwini

• Solubility Advantage of Pharmaceutical Cocrystals

  Citation: 749

  Authors: David J., Naír

• Recent Advances in Understanding the Mechanism of Cocrystal Formation via Grinding

  Citation: 664

  Authors: Tomislav, William

• A Review of Classical and Nonclassical Nucleation Theories

  Citation: 660

  Authors: S., T. K., P.

• Coalescence of Nanoclusters and Formation of Submicron Crystallites Assisted by<i>Lactobacillus</i>Strains

  Citation: 656

  Authors: Binoj, T.

• Nucleation

  Citation: 652

  Authors: Peter G.

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