Biomimetic, Interface-Free Stiffness-Gradient PDMS-Co-Polyimide-Based Soft Materials for Stretchable Electronics and Soft Robotics [0.03%]
仿生、无界面的PDMS-共聚酰亚胺软材料及其在可拉伸电子和软体机器人中的应用
Stephan Schaumüller,Stefan Halama,Peter Prka et al.
Stephan Schaumüller et al.
Soft materials play a pivotal role in the efficacy of stretchable electronics and soft robotics, and the interface between the soft devices and rigid counterparts is especially crucial to the overall performance. Herein, we develop polyimid...
Wonchul Park,Dong Young Chung
Wonchul Park
The oxygen evolution reaction (OER) is a critical process in various sustainable energy technologies. Despite substantial progress in catalyst development, the practical application of OER catalysts remains hindered by the ongoing challenge...
Chemical Origins of Optically Addressable Spin States in Eu2(P2S6) and Eu2(P2Se6) [0.03%]
Eu2(P2S6)和Eu2(P2Se6)中光学可寻址自旋态的化学起源
Uchenna V Chinaegbomkpa,Xudong Huai,Michal J Winiarski et al.
Uchenna V Chinaegbomkpa et al.
Lanthanide materials with a 4f7 electron configuration (8S7/2) offer an exciting system for realizing multiple addressable spin states for qubit design. While the 8S7/2 ground state of 4f7 free ions displays an isotropic character, breaking...
Christian Stefan Gruber,Mahmoud Abdel-Hafiez
Christian Stefan Gruber
Topological quantum materials hold great promise for future technological applications. Their unique electronic properties, such as protected surface states and exotic quasi-particles, offer opportunities for designing novel electronic and ...
Impact of Mg Substitution on the Structure, Stability, and Properties of the Na2Fe2F7 Weberite Cathode [0.03%]
镁取代对Na2Fe2F7韦伯岩正极材料的结构、稳定性和电化学性能的影响
Hanna Z Porter,Emily E Foley,Wen Jin et al.
Hanna Z Porter et al.
Of the few weberite-type Na-ion cathodes explored to date, Na2Fe2F7 exhibits the best performance, with capacities up to 184 mAh/g and energy densities up to 550 Wh/kg reported for this material. However, the development of robust structure...
Ti Doping Decreases Mn and Ni Dissolution from High-Voltage LiNi0.5Mn1.5O4 Cathodes [0.03%]
钛掺杂可降低高电压下LiNi0.5Mn1.5O4正极材料中锰和镍的溶解量
Vaibhav Sharma,Geetika Bhardwaj,Nithisan Mahendran et al.
Vaibhav Sharma et al.
LiNi0.5Mn1.5O4 (LNMO), with its high operating voltage, is a favorable cathode material for lithium-ion batteries. However, Ni and Mn dissolution and the associated low cycle life limit their widespread adoption. In this work, we investigat...
Nanostructured Thin Films Enhancing the Performance of New Organic Electronic Devices: Does It Make Sense? [0.03%]
纳米结构薄膜能提升新型有机电子器件性能吗?
Priscila Alessio,Milene K C da Silva,Vitoria Barossi et al.
Priscila Alessio et al.
Electronics have evolved significantly with the development of semiconductor materials and devices, with emerging areas such as organic and flexible electronics showing great promise, particularly in applications such as wearable devices an...
Realizing the Potential of Commercial E-Textiles for Wearable Glucose Biosensing Application [0.03%]
商业化电子纺织品在可穿戴葡萄糖生物传感应用中的潜力实现
Moshfiq-Us-Saleheen Chowdhury,Sutirtha Roy,Krishna Prasad Aryal et al.
Moshfiq-Us-Saleheen Chowdhury et al.
Advancements in wearable technology have enabled noninvasive health monitoring using biosensors. This research focuses on developing a textile-based sweat glucose sensor using commercially available conductive textiles, evading the complexi...
How Oxygen Deficiency and Its Ordering Control Electrical Conductivity in Sr2- x Ca x Fe2O6-δ Perovskites as Related to Water Oxidation Electrocatalysis [0.03%]
氧空位及其有序对Sr2- x Ca x Fe2O6-δ钙铁矿型氧化物电导率的影响及与析氧反应催化活性之间的关系研究
Jiam Vuong,Shahab Derakhshan,Hadi Tavassol
Jiam Vuong
We report on the analysis of oxygen vacancies (OVs) content and ordering of Sr2-x Ca x Fe2O6-δ perovskites and explain how OVs change the electrical conductivity and oxygen evolution catalytic activity of these compounds. The structure and...
Liang Sun,Kaihua Wen,Guanjie Li et al.
Liang Sun et al.
High-entropy alloys (HEAs) have become pivotal materials in the field of catalysis, offering unique advantages due to their diverse elemental compositions and complex atomic structures. Recent advances in computational techniques, particula...