The Effect of Mixtures and Additives on Dissolving Surfactant Lamellar Phases [0.03%]
混合物和添加剂对溶解性表面活性剂层状相的影响
Mitha Aljabri,Thomas Rodgers
Mitha Aljabri
Understanding the dissolution process of surfactant solutions is important in formulating product design processes. The main goal of this study is to gain further insights into how additives and mixtures affect surfactant dissolution proces...
Structure-Guided Antiviral Peptides Identification Targeting the HIV-1 Integrase [0.03%]
靶向人类免疫缺陷病毒I型整合酶的结构导向抗病毒肽识别
Md Shahadat Hossain,Md Siddik Alom,Mohammad Salauddin Kader et al.
Md Shahadat Hossain et al.
HIV-1 integrase (IN), a major protein in the HIV life cycle responsible for integrating viral cDNA into the host DNA, represents a promising drug target. Small peptides have emerged as antiviral therapeutics for HIV because of their facile ...
Prominent Role of Charge Transfer in the Spectral Tuning of Photosynthetic Light-Harvesting I Complex [0.03%]
光转换中电荷转移在谱调节中的重要作用光捕获I复合体
Kazuhiro J Fujimoto,Rio Tsuji,Zheng-Yu Wang-Otomo et al.
Kazuhiro J Fujimoto et al.
Purple bacteria possess two ring-shaped protein complexes, light-harvesting 1 (LH1) and 2 (LH2), both of which function as antennas for solar energy utilization for photosynthesis but exhibit distinct absorption properties. The two antennas...
A Vision for the Future of Neutron Scattering and Muon Spectroscopy in the 2050s [0.03%]
面向2050年的中子散射和缪子光谱学展望
Stewart F Parker,Peter J Baker,Robert McGreevy
Stewart F Parker
Neutron scattering and muon spectroscopy are techniques that use subatomic particles to understand materials across a wide range of energy (μeV to tens of eV), length (Å to cm) and time (attosecond to hour) scales. The methods are widely ...
Developments in Raman Spectromicroscopy for Strengthening Materials and Natural Science Research: Shaping the Future of Physical Chemistry [0.03%]
拉曼显微光谱学在材料及天然产物研究中的新进展:打造物理化学的未来
Devesh K Pathak,Chanchal Rani,Aanchal Sati et al.
Devesh K Pathak et al.
Spectroscopic techniques, especially Raman spectroscopy, cover a large subset in the teaching and research domain of physical chemistry. Raman spectroscopy, and other Raman based techniques, establishes itself as a powerful analytical tool ...
A Vision for the Future of Materials Innovation and How to Fast-Track It with Services [0.03%]
材料创新的未来展望及其与服务结合的快速推进路径
Lorenz J Falling
Lorenz J Falling
Today, we witness how our scientific ecosystem tries to accommodate a new form of intelligence, artificial intelligence (AI). To make the most of AI in materials science, we need to make the data from computational and laboratory experiment...
Ultrafast Nuclear Magnetic Resonance as a Tool to Detect Rapid Chemical Change in Solution [0.03%]
超快核磁共振技术在溶液中快速化学变化检测中的应用研究
Ben J Tickner,Kawarpal Singh,Vladimir V Zhivonitko et al.
Ben J Tickner et al.
Ultrafast nuclear magnetic resonance (NMR) uses spatial encoding to record an entire two-dimensional data set in just a single scan. The approach can be applied to either Fourier-transform or Laplace-transform NMR. In both cases, acquisitio...
Aggregation in Deep Eutectic Solvents (DESs): Formation of Polar DES-in-Nonpolar DES Microemulsions [0.03%]
深eutectic溶剂(des)中的聚集:极性des-in-非极性des微乳液的形成
Anushis Patra,Anjali,Siddharth Pandey
Anushis Patra
The versatility of environmentally benign and inexpensive deep eutectic solvents (DESs) lies in their widely varying physicochemical properties. Depending on its constituents, a DES may be highly polar or nonpolar in nature. This offers an ...
Karina Kwapiszewska
Karina Kwapiszewska
The vast majority of chemical processes that govern our lives occur within living cells. At the core of every life process, such as gene expression or metabolism, are chemical reactions that follow the fundamental laws of chemical kinetics ...
Rational Design of Far-Red Archaerhodopsin-3-Based Fluorescent Genetically Encoded Voltage Indicators: from Elucidation of the Fluorescence Mechanism in Archers to Novel Red-Shifted Variants [0.03%]
基于远红光古菌视紫红质3设计荧光遗传编码电压指示器:从阐明Archers的荧光机制到新型红移变异体
Dmitrii M Nikolaev,Vladimir N Mironov,Ekaterina M Metelkina et al.
Dmitrii M Nikolaev et al.
Genetically encoded voltage indicators (GEVIs) have found wide applications as molecular tools for visualization of changes in cell membrane potential. Among others, several classes of archaerhodopsin-3-based GEVIs have been developed and h...