Journal Guide

CrystEngComm is the forum for the design and understanding of crystalline materials. It publishes studies on the investigation of molecular behaviour within crystals, control of nucleation and crystal growth, engineering of crystal structures, and construction of crystalline materials with tuneable properties and functions. All papers should involve the use or development of a design or optimisation strategy.

EES Catalysis is a premier journal, publishing high-quality experimental and theoretical catalysis research for energy and environmental applications. Delivering the same impact and influence which researchers associate with the Energy & Environmental Science brand, EES Catalysis is transdisciplinary, publishing globally impactful energy and environmental catalysis across all scientific disciplines including chemistry, materials science and engineering. Exceptional research using any type of catalysis is welcome. This includes heterogeneous, homogeneous, molecular and biocatalysis phase-based investigations, and encompasses the fields of thermo-, electro-, and photocatalysis for the production of clean energy, fuels and chemicals, modification/repairing of environment, and improved planetary health. Both fundamental and applied catalysis research, as well as reports, focused on new reactions, new methodologies, new approaches, and new mechanisms that are of significant general interest to the community, are all welcome.

Energy & Environmental Science is an international journal dedicated to publishing exceptionally important and high quality, agenda-setting research tackling the key global and societal challenges of ensuring the provision of energy and protecting our environment for the future. The scope is intentionally broad and the journal recognises the complexity of issues and challenges relating to energy conversion and storage, alternative fuel technologies and environmental science. For work to be published it must be linked to the energy-environment nexus and be of significant general interest to our community-spanning readership. All scales of studies and analysis, from impactful fundamental advances, to interdisciplinary research across the (bio)chemical, (bio/geo)physical sciences and chemical engineering disciplines are welcomed.

Energy Advances is a multidisciplinary journal that features cutting-edge science at the forefront of energy technology. The journal brings together research in chemistry, physics, materials science, engineering, computer science, and techno-economical/ecological evaluation, with a particular focus on emerging materials and methods. Topics of interest include, but are not limited to: • Batteries, supercapacitors, hybrid devices and other energy storage technologies • Bioenergy, biofuels and the biorefinery • Carbon capture, storage or utilisation • Catalysis and chemical engineering for energy applications • Fuel cells • Hydrogen production and storage • Modelling, machine learning and characterisation for energy materials & systems • Solar energy conversion and photovoltaics

EML publishes letter-sized articles, as well as invited reviews and articles on topics of special interest. The goal is to have the papers published online within 6-8 weeks upon submission.

EML covers experimental, theoretical, and computational mechanics of processes at all size and time scales. Of particular interest is the progress in mechanics that advances the fields of vital importance to the society, including, but not limited to, health science, energy systems, the environment, food and water, climate, and security.

Among the topical areas of interest are:

• Materials of extreme properties, such as exceptional hardness or softness
• Materials under extreme conditions, such as high temperature and high loading rate
• Stretchable, wearable, or implantable electronics for entertainment or healthcare
• Soft robots in manufacturing, surgery and assisted living
• Robots that crawl, run, swim or fly
• Biomimetics that perceive, act, learn and remember
• Active materials in response to mechanical, chemical, electrical, thermal stimuli
• Instability and large deformation in nature and engineering systems
• Force-induced configurational changes of proteins leading to cascades in cellular responses
• Deformation, transport and fracture in high-efficiency batteries
• Interfacial phenomena in interactions between fluids and solids, deformation and failure of materials, and processes of living cells
• Self-assembly of materials and devices
• Thin-membrane origami and kirigami
• Mechanics of 3D printing
• Materials and structures of hierarchical architectures
• Hybrid systems of air, liquids, and solids
• Earthquakes and hydraulic fracture
• Foldable, lightweight structures for space exploration