Midori Johnston,Schan Dissanayake-Perera,James J Collins et al.
Midori Johnston et al.
In addition to its broad application in genome engineering and therapeutics, clustered regularly interspaced short palindromic repeats (CRISPR) technology provides field-deployable methods for the highly sensitive and selective detection of...
Spatiotemporal-adaptive nanotherapeutics promote post-injury regeneration in ageing through metabolic modulation [0.03%]
时空自适应纳米疗法通过代谢调节促进衰老后的组织再生
Kaiyu Liang,Lan Zhao,Shuheng Zhang et al.
Kaiyu Liang et al.
In the elderly population, dysregulated cellular behaviour during the healing process impacts tissue regeneration after injury. Early in the regeneration process, pro-inflammatory macrophages contribute to immune imbalance, while in later s...
Feliciano Giustino
Feliciano Giustino
Mikael C Rechtsman,Nathan Goldman
Mikael C Rechtsman
Full-length protein classification via cysteine fingerprinting in solid-state nanopores [0.03%]
基于固态纳米孔半胱氨酸指纹的全长蛋白质分类
Neeraj Soni,Zohar Rosenstock,Navneet C Verma et al.
Neeraj Soni et al.
Recent advances in single-molecule technologies are transforming the field of protein analysis. Solid-state nanopores provide an effective method to linearize and thread full-length proteins in a single file. However, slowing their rapid tr...
Yingying Wu,Bin Li,Xiang Zhu et al.
Yingying Wu et al.
The presence of multiple polarons, particularly at high doping levels, involves complex many-body interactions that substantially influence the electronic and transport properties of various materials. Determining the spatial distributions ...
Meso-macroporous hydrogel for direct litre-scale isolation of extracellular vesicles [0.03%]
用于直接规模化分离外泌体的介孔宏观多孔水凝胶
Junbeom Kim,Minjin Kang,Geonhee Han et al.
Junbeom Kim et al.
Extracellular vesicles are cell-originated lipid bilayer membrane vesicles that play vital roles in cell-to-cell communications. While extracellular vesicles hold substantial biomedical potential, conventional methodologies for isolating ex...
Interstitial nanofilament pathway reduces energy consumption in memristors [0.03%]
介电纳米丝通道可降低忆阻器能量消耗
Tae-Woo Lee,Gwan-Hyoung Lee
Tae-Woo Lee
Kaihui Liu
Kaihui Liu
Thomas E Ouldridge,Rakesh Mukherjee
Thomas E Ouldridge