A5100385427- Advancements in Battery Materials
- Advanced Battery Materials and Technologies
- Supercapacitor Materials and Fabrication
- Solar-Powered Water Purification Methods
- Surface Modification and Superhydrophobicity
- Solar Thermal and Photovoltaic Systems
- Membrane Separation Technologies
- Advanced Photocatalysis Techniques
- Chemical Thermodynamics and Molecular Structure
- Advanced Battery Technologies Research
- Thermal and Kinetic Analysis
- Electrochemical sensors and biosensors
- Wastewater Treatment and Nitrogen Removal
- Extraction and Separation Processes
- Chemical and Physical Properties in Aqueous Solutions
- Catalytic Processes in Materials Science
- Electrocatalysts for Energy Conversion
- Carbohydrate Chemistry and Synthesis
- Bauxite Residue and Utilization
- Electrokinetic Soil Remediation Techniques
- Phosphorus and nutrient management
- TiO2 Photocatalysis and Solar Cells
- Carbon dioxide utilization in catalysis
- CO2 Reduction Techniques and Catalysts
- Electrophoretic Deposition in Materials Science
Qingdao Institute of Bioenergy and Bioprocess Technology
2022-2025
Qinghai New Energy (China)
2023-2025
AgroBio
2025
China Agricultural University
2025
Peking University
2025
Unité Matériaux et Transformations
2025
Tianjin University
2025
University of Chinese Academy of Sciences
2022-2024
Northeast Forestry University
2024
Northwestern Polytechnical University
2017-2024
One of the basic assumptions in organic field-effect transistors, most fundamental device unit electronics, is that charge transport occurs two dimensionally first few molecular layers near dielectric interface. Although mobility bulk semiconductors has increased dramatically, direct probing intrinsic two-dimensional limit not been possible due to excessive disorders and traps ultrathin thin films. Here, highly ordered single-crystalline mono- tetralayer pentacene crystals are realized by...
Hitherto, Pt-based catalysts still are state of the art for oxygen reduction reaction (ORR) and hydrogen evolution (HER), but high dosage, low atom-utilization efficiency, uncontrollable size Pt species seriously impede their applications. Given this, we propose an effective way by enhancing Pt–transition metal single-atom interaction. Due to strong interaction between Mn sites in Mn–N–C species, overgrowth is effectively limited with average smaller than 2.5 nm. Meanwhile, regulated...
Abstract High‐capacity O3‐type layered sodium oxides are considered one of the most promising cathode materials for next generation Na‐ion batteries (NIBs). However, these cathodes usually suffer from low high‐rate capacity and poor cycling stability due to structure deformation, native air sensitivity, interfacial side reactions. Herein, a multi‐site substituted strategy is employed enhance NaNi 0.5 Mn O 2 . Simulations indicate that Ti substitution decreases charge density Ni ions improves...
Abstract Redox from the holes at O 2p orbitals is a well‐known phenomenon in Li‐rich Mn‐based batteries. However, such an anionic redox process results formation of 2 , leading to structural instability owing unstable holes. Herein, swing‐like non‐isothermal sintering technique used stabilize lattice oxygen by suppressing during charging. It reduces both number intrinsic vacancies oxides and charging as compared with traditional constant high‐temperature sintering. Consequently, generated...
Sodium-ion batteries (SIBs) are leading candidates to address the energy crisis and lithium depletion. Layered transition metal (TM) oxides regarded as some of most promising cathode materials for SIBs due their high capacities, rate capability, low cost. However, practical application layered TM oxide cathodes is significantly challenged by limitations in both density cycle life, specifically at extreme temperatures. Herein, we summarize fundamental issues newly proposed strategies on...
Solar steam generation (SSG) is an effective way to mitigate the freshwater crisis. However, challenges still remain in scalable preparation, cost-effectiveness, and expanding scope of practical applications for photothermal materials. Herein, a biomass-based solar generator (named OR-INP) with salt-resistant, oil-repellent, anti-fouling performances fabricated by grafting poly(ionic liquid)s onto celluloses from waste newspapers then conducting oil-repellent modification. Benefiting broad...
Abstract Li‐rich layered oxides (LRLO) exhibit significant potential for use in all‐solid‐state lithium batteries (ASSLBs) owing to their high capacities and wide range of operating voltages. However, the practical application LRLO ASSLBs is hindered by severe failure carrier transport at solid–solid interface, which subsequently limits electrochemical activity these batteries. Here, spatially asynchronous activation mechanism presented. A spectroscopic study extending from surface into bulk...
An efficient glycosylation reaction utilizing a meticulously designed thioglycoside has been developed. The well-established protocol was demonstrated in the total synthesis of TD139 and one-pot assembly E. coli O33 antigen tetrasaccharide.
Solar steam generation (SSG) devices have emerged as one of the promising technologies for seawater desalination to meet worldwide demand clean water. Herein, we fabricated a new monolithic SSG system derived from waste coffee grounds (CG) through simple carbonization followed by freeze-drying process (named CCGA). The as-prepared CCGA possesses porous structure with superhydrophilic, abundant porosity (81.7%); low thermal conductivity (0.129 W m-1 K-1) in wet state; apparent density (25 mg...
Optimization of the cathode structure and exploration a novel electrolyte system are important approaches for achieving high-performance zinc-ion batteries (ZIBs) zinc dendrite suppression. Herein, quasi-solid-state ZIB combining sandwich-like MnO2@rGO cathode, laponite (Lap)-modified polyacrylamide (PAM) hydrogel electrolyte, an electrodeposited anode is designed constructed by synergistic optimization strategy. The MnO2 composite prepared through intercalation rGO shows developed...
Abstract Direct synthesis of CH 3 COOH from 4 and CO 2 is an appealing approach for the utilization two potent greenhouse gases that are notoriously difficult to activate. In this Communication , we report integrated route enable reaction. Recognizing thermodynamic stability our strategy sought first activate produce (through electrochemical reduction) O water oxidation), followed by oxidative carbonylation catalyzed Rh single atom catalysts supported on zeolite. The net result was...
Full concentration gradient lithium‐rich layered oxides are catching lots of interest as the next generation cathode for lithium‐ion batteries due to their high discharge voltage, reduced voltage decay and enhanced rate performance, whereas lithium residues on its surface impairs structure stability long‐term cycle performance. Herein, a facile multifunctional modification method is implemented eliminate full by wet chemistry reaction with tetrabutyl titanate post‐annealing process. It...