晶體生長與設計的目的是激發從事晶體生長、晶體工程和晶體材料工業應用領域的科學家和工程師之間知識的交叉融合。晶體生長與設計出版與晶體材料的設計、生長和應用有關的物理、化學和生物現象和過程的理論和實驗研究。鼓勵采用源自不同學科和技術、整合晶體生長、晶體工程、分子間相互作用和工業應用等領域的協同方法。強調了晶體生長的基本概念，并支持進一步理解晶體生長條件和由此產生的晶體性質（如晶體形狀、導電性、溶解性）之間的關系。期刊主要包括以下內容：晶體工程（例如有機、無機和混合固體）無機、有機和生物物質的晶體生長（例如生物礦化）多態性，多型性新型納米結構相的發展固態分子間相互作用（例如氫鍵、晶格能）晶體生長過程的建模晶體結構和晶體習性的預測固態電子分布的測定與計算成核理論晶體生長中的分子動力學與輸運現象相變化溶劑化和結晶現象，結晶過程建模凈化技術，工業結晶晶體生長與設計不包括晶體或分子結構的常規報告。

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.Contributions emphasizing the fundamental concepts of crystal growth and supporting further understanding of the relationship between crystal growth conditions and resulting properties of the crystal (e.g., crystal shape, conduction, solubility) are highlighted.The journal primarily covers the following:Crystal engineering (e.g., organic, inorganic, and hybrid solids)Crystal growth of inorganic, organic, and biological substances (e.g., biomineralization)Polymorphism, polytypismDevelopment of new nanostructured phasesIntermolecular interactions in the solid state (e.g., hydrogen bonding, lattice energies)Modeling of crystal growth processesPrediction of crystal structure and crystal habitDetermination and calculation of electronic distribution in the solid stateNucleation theoryMolecular kinetics and transport phenomena in crystal growthPhase transitionsSolvation and crystallization phenomena, modeling of crystallization processesPurification techniques, industrial crystallizationCrystal Growth & Design does not cover routine reports of crystal or molecular structures.