Results 171 to 180 of about 460,138 (357)

Topology in Biological Piezoelectric Materials

Advanced Materials, EarlyView.
This review summarizes the topological structures in biological piezoelectric materials, covering morphology evolution, spatial arrangement, and biomimetic strategies. These topologies modulate structure‐property relationships across multiple scales, enabling performance enhancement and multifunctional integration.
Chen Chen, Yanhu Zhang, Yi Zheng, Yi Zhang, Hongyi Liu, Jiang Wu, Liang Yang, Zhengbao Yang   +7 more
wiley   +1 more source

Utilization of Nicotinic Acid and its Amide by the Human Erythrocyte in Vitro¹

, 1948
Edgar Leifer, John R. Hogness, Lloyd J. Roth, Wright H. Langham   +3 more
openalex   +2 more sources

Ueber einige substituirte Amide der Oxalsäure [PDF]

, 1897
Wilhelm Kerp, Karl Unger
openalex   +1 more source

Manipulating the Assembly and Architecture of Fibrillar Silk

Advanced Materials, EarlyView.
In this study, advanced in situ AFM, PiFM, and Cryo‐EM are leveraged to realize in situ observations of nucleation, growth, and degradation of silk nanofibrils. A clear picture of the assembly and structural evolution of regenerated silk nanofibrils is defined and demonstrates a novel strategy for manipulating their structure and properties, which ...
Chenyang Shi, Yuna Bae, Mingyi Zhang, James J. De Yoreo   +3 more
wiley   +1 more source

AMIDE SYNTHESIS AND TRANSAMIDATION DURING GROWTH OF SACCHAROMYCES CEREVISIAE [PDF]

, 1953
A. Leonard Sheffner, John Grabow
openalex   +1 more source

Toward Zero‐Excess Alkali Metal Batteries: Bridging Experimental and Computational Insights

Advanced Materials, EarlyView.
This review explores zero‐excess alkali metal batteries, highlighting anode–electrolyte interfaces, metal nucleation, dendrite growth, and SEI formation while comparing Li, Na, and K metals. It critically examines electrolyte and separator roles, emphasizing substrate design, electrolyte modifications, interfacial engineering, and solid‐state ...
Pan He, Neubi Francisco Xavier Jr, Matthias Johannes Golomb, Yupei Han, Yuheng Du, Qiong Cai, Yang Xu   +6 more
wiley   +1 more source

The unit cell and space group of N-acetyl-L-tyrosyl-amide [PDF]

, 1949
Gene B. Carpenter
openalex   +1 more source

Ionic Conductive Textiles for Wearable Technology

Advanced Materials, EarlyView.
Recent advances in ionic conductive textiles for wearable technology are summarized, with a focus on soft ionic conductors that exhibit skin‐like flexibility and tissue‐like ion dynamics. Their structures, key characteristics, manufacturing methods, and diverse applications are reviewed.
Lingtao Fang, Yunlu Zhou, Qiyao Huang
wiley   +1 more source

Two Pleated-Sheet Configurations of Polypeptide Chains Involving Both Cis and Trans Amide Groups

, 1953
Linus Pauling, Robert B. Corey
openalex   +1 more source

Traceless Photopolymerization with Non‐Pulsed Red Light Enables 3D‐Printable Cell‐Laden Hydrogels

Advanced Materials, EarlyView.
The paper presents a red‐light‐induced polymerization process, initiated by the FDA‐approved dye methylene blue and the cytocompatible co‐initiator triethanolamine, for fabricating hydrogels. This photopolymerization process is oxygen‐tolerant, cytocompatible, and, most importantly, leaves no color traces, resulting in completely transparent scaffolds.
Ali Eftekhari, Kelsey Rianne de Graaf, Ekaterina Takmakova, Hatai Jongprasitkul, Alexander Efimov, Sanna Turunen, Andrew Kerr, Minna Kellomäki, Robert Luxenhofer, Timo Laaksonen, Nikita Durandin   +10 more
wiley   +1 more source