Results 231 to 240 of about 16,726 (302)

Decoding the Pathophysiology of Autoimmune Diseases—Mechanism, Triggers, and Nanotherapeutics: A Review

Advanced NanoBiomed Research, EarlyView.
This review highlights how autoimmune diseases arise from intertwined immunological, genetic, and environmental factors, emphasizing gut microbiota dysbiosis as a pivotal driver. It outlines emerging nanotechnology‐based strategies—such as liposomes, hydrogels, and polymeric nanoparticles—that enhance targeted drug delivery, minimize systemic toxicity,
Md. Meraj Ansari, Yunhui Min, Eun‐Ju Ko, Doyoung Kwon, Rehan Khan, Young‐Ok Son   +5 more
wiley   +1 more source

Ultra‐Low‐Cost Hydrophobic Organic Coating for Highly Reversible Zinc Anodes

Angewandte Chemie, EarlyView.
A nanoscale hydrophobic 1,3‐Di(o‐tolyl)thiourea (DTH) layer (<14 nm) was deposited on zinc anodes for durable aqueous Zn‐ion batteries, costing merely 1.43×10−7 USD·Ah−1. By suppressing side reactions and dendrites, it achieved 2500‐cycle coin cells and a 143 Wh·kg−1 pouch cell (1200 cycles) with a record‐low additive cost (7.02×10−7 USD).
Shixun Wang, Zhiquan Wei, Yiqiao Wang, Shengnan Wang, Dedi Li, Hu Hong, Chuan Li, Yanbo Wang, Zhuoxi Wu, Shaoce Zhang, Xueying Zheng, Yi‐Chun Lu, Chunyi Zhi   +12 more
wiley   +2 more sources

Enhancing Stability and Capacity in Planar Zn-Ion Micro-Batteries via 3D Porous Ni Anode Integration. [PDF]

Small Methods
Zhu Y, Liu X, Naresh N, Luo J, Hu X, Liu S, Nikiforidis G, Wang M, Boruah BD.   +8 more
europepmc   +1 more source

Free-Standing Composite Film Based on Zinc Powder and Nanocellulose Achieving Dendrite-Free Anode of Aqueous Zinc-Ion Batteries. [PDF]

Materials (Basel)
Wang G, Chen M, Chen J.
europepmc   +1 more source

Highly zincophilic-hydrophobic polyzwitterionic hydrogel electrolyte with strong electronegative sulfobetaine-carboxyl motifs for ultrastable zinc-ion batteries. [PDF]

Chem Sci
Zhou J, Huang Q, Lv Y, Song Z, Gan L, Liu M.   +5 more
europepmc   +1 more source

Synergistic Solvation Strategy for Low-Temperature Alkaline Zinc-Ferricyanide Flow Battery. [PDF]

Research (Wash D C)
Xin Y, Li C, Gao W, Chen Y.
europepmc   +1 more source

Gradient chaotropic regulation of Zn²⁺ solvation chemistry for low-temperature zinc metal batteries. [PDF]

Nat Commun
Yang S, Zhao S, Xu H, Wang X, Huang X, Yang Q, Chen Y, Wang G, Chen S.   +8 more
europepmc   +1 more source

Cluster level entropy enhancement in neutral acetate electrolytes enables economical and durable zinc air batteries. [PDF]

Nat Commun
Zhao W, Wang Y, Mashhadimoslem H, Zhu N, Karimi P, Wang Z, Elkamel A, Tan Z, Yu A, Chen Z.   +9 more
europepmc   +1 more source

Zwitterionic Electrolyte Additives Empowered Robust Zn-I₂ Batteries Enduring a Low Temperature of -40 °C. [PDF]

Adv Sci (Weinh)
Wang S, Chen Y, Donkor S, Guo Z, Wang G, Li Y, Zheng SY, Xu BB, Yang J.   +8 more
europepmc   +1 more source

“Dead Lithium” Formation and Mitigation Strategies in Anode‐Free Li‐Metal Batteries

Batteries &Supercaps, Volume 8, Issue 3, March 2025.
Anode‐free lithium metal batteries, though promising due to their high energy density, face challenges from dead lithium formation. “Dead lithium”, disconnected from the anode, causes capacity loss, increased resistance, and safety risks. This review explores the origins of dead lithium, its impact on battery performance, and potential strategies for ...
Mozaffar Abdollahifar, Andrea Paolella
wiley   +1 more source