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- Small | Nanoscience Nanotechnology Journal | Wiley Online Library
Small is a nanoscience nanotechnology journal providing the very best forum for fundamental and interdisciplinary applied research at the nano- and microscale, covering chemistry, energy, physical materials science, engineering, and biomedical and life sciences
- Author Guidelines - Small - Wiley Online Library
Manuscript Submission Free Format Submission We now offer Free Format submission for a simplified and streamlined process for New Submissions Before you submit, you will need: Your manuscript: this should be an editable file including text, figures, and tables, or separate files – whichever you prefer All required sections should be contained in your manuscript, including abstract (which
- Small - Wiley Online Library
Editorial Advisory Board Our journal is managed by professional in-house editors who handle manuscripts from submission to publication and beyond, including overseeing peer review and production steps and liaising with the scientific community All editors responsible for the peer review process and for editorial decision-making have research backgrounds and hold a PhD Learn more about our
- Small: Vol 20, No 51 - Wiley Online Library
Electrochemical impedance spectroscopy and small-angle X-ray scattering reveal Pt 3 Co's high sensitivity to humidity gradients, highlighting its vulnerability to dealloying and accelerated performance decay
- Overview - Small - Wiley Online Library
Small provides the very best forum for experimental and theoretical studies of fundamental and applied interdisciplinary research at these dimensions Read an attractive mix of peer-reviewed Research Articles, Reviews, Perspectives and Comments
- Small: Vol 21, No 2 - Wiley Online Library
Small-and ultra-small-angle neutron scattering techniques reveal their thermal and photothermal responsiveness, showcasing their potential as next-generation materials
- Small: List of Issues - Wiley Online Library
2025 - Volume 21, SmallVolume 21, Issue 24
- 3D‐Printed High‐Entropy Alloy Nanoarchitectures - Ai - 2025 - Small . . .
These properties position nano-architectured HEAs as a novel class of materials suitable for high-stress, high-toughness applications in small-dimensional devices By combining the versatility of 3D nanoprinting with the expansive alloy design space of HEAs, this approach paves the way for their potential integration into future nanodevices
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