A delicate showcase of flower-inspired art that captures the beauty, color, and detail of nature. Perfect for inspiration, relaxation, and appreciating the small natural wonders around us. #FlowerArt ...
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. Among other topics, the journal covers nanotechnology, organic electronics, nanostructures, and materials such as graphene. The ...
Small continues to be among the top multidisciplinary journals covering a broad spectrum of topics at the nano- and microscale at the interface of materials science, chemistry, physics, engineering, medicine, and biology.
Contact the Team Editorial queries (Submission and Peer Review) E-mail: small@wiley.com Production queries (after Acceptance) E-mail: SMLLprod@wiley.com Phone: +49 6201 606-581 Mail: Postfach 10 11 61, 69451 Weinheim, Germany Homepage: www.small-journal.de Courier services: Boschstrasse 12, 69469 Weinheim, Germany For reprints, permissions, subscriptions, marketing, and advertising see below ...
Small Methods is a nanoscience & nanotechnology journal focusing on significant advances in any and all methods applicable to nano- and microscale research. The journal covers all areas of chemistry, physical and materials science, and biomedical and life sciences, featuring cutting-edge technical and methodological developments. Coverage also includes a variety of structural and chemical ...
Small Methods | Nano & Micro Technology Journal | Wiley Online Library
Nanomaterials offer promising applications in retinal disease due to their small size, high biocompatibility, and functional versatility. They enhance imaging precision, enable biomarker detection, and improve drug delivery while minimizing systemic toxicity.
Two small-molecule additives, perfluoropinacol (PFP) and 2,6-dichlorobenzyl chloride (DCB), enable multisite, complementary passivation of deep and shallow defects in FAPbI3 films.