A5019752850- Planetary Science and Exploration
- Astro and Planetary Science
- Space Exploration and Technology
- Space Science and Extraterrestrial Life
- Crystallization and Solubility Studies
- Geology and Paleoclimatology Research
- Perovskite Materials and Applications
- X-ray Diffraction in Crystallography
- Geological and Geochemical Analysis
- Advanced Sensor and Energy Harvesting Materials
- Chemical Analysis and Environmental Impact
- Quantum Dots Synthesis And Properties
- Organic Electronics and Photovoltaics
- Laser-induced spectroscopy and plasma
- Geochemistry and Elemental Analysis
- Advanced Photocatalysis Techniques
- Advanced Battery Materials and Technologies
- Advancements in Battery Materials
- Analytical chemistry methods development
- Spaceflight effects on biology
- Paleontology and Stratigraphy of Fossils
- Surface Modification and Superhydrophobicity
- Advanced battery technologies research
- Conducting polymers and applications
- Mass Spectrometry Techniques and Applications
Chengdu University of Technology
2021-2025
Chengdu University
2023-2025
Suzhou University of Science and Technology
2024-2025
University of Science and Technology of China
2022-2025
Chinese Academy of Sciences
2018-2024
Institute of Geochemistry
2018-2024
Center for Excellence in Molecular Cell Science
2021-2024
University of Chinese Academy of Sciences
2020-2023
Technical Institute of Physics and Chemistry
2018-2023
Planetary Science Institute
2023
Interfacial materials exhibiting superwettability have emerged as important tools for solving the real‐world issues, such oil‐spill cleanup, fog harvesting, etc. The Janus of lotus leaf inspires design asymmetric interface using superhydrophobic/superhydrophilic binary cooperative strategy. Here, presented copper sheet, composed a superhydrophobic upper surface and superhydrophilic lower surface, is able to be steadily fixed at air/water interfaces, showing improved interfacial floatability....
Structural engineering in multiple scales permits the integration of exotic properties into a single material, which boosts development ultracompact multifunctional devices. Layered perovskites are capable cross-linking efficient carrier transport originating from few-layer perovskite frameworks with extended functionalities contributed by designable bulky organic cations and nanostructures, thus providing platform for multiscale material engineering. Herein, high-performance...
Hybrid metal halides (HMHs) are a class of materials that combine extraordinary photophysical properties and excellent processability. Their chemical variability allows for the solid-liquid transition toward melt-processable HMHs. Herein, we report design synthesis zero-dimensional HMHs [M(DMSO)6][SbCl6], where isolated octahedra [M(DMSO)6]3+ [SbCl6]3- alternatively aligned in crystal structure. The luminescent center enables photogeneration self-trapped excitons, resulting broadband...
Abstract Clean energy generated from total water splitting is expected to be an affordable, sustainable, and reliable resource but it remains a challenge gain pure fuel with controllable pathway. Here, simple economical strategy that enables in situ separation of H 2 /O product by manipulating the gas phases aid multi‐bioinspired electrodes proposed. This versatile electrode based on Janus asymmetric foam dual gradients, i.e., wettability gradient promotes one‐way penetration geometry boosts...
The Mars' climate is cold and dry in the most recent epoch, liquid water activities are considered extremely limited. Previous orbital data only show sporadic hydrous minerals northern lowlands of Mars excavated by large impacts. Using short-wave infrared spectral obtained Zhurong rover China's Tianwen-1 mission, which landed southern Utopia Planitia on Mars, we identify hydrated sulfate/silica materials Amazonian terrain at landing site. These associated with bright-toned rocks, interpreted...
The Zhurong rover of the Tianwen-1 mission landed in southern Utopia Planitia, providing a unique window into evolutionary history Martian lowlands. During its first 110 sols, investigated and categorized surface targets igneous rocks, lithified duricrusts, cemented soils sands. analysed by using laser-induced breakdown spectroscopy onboard Zhurong, show elevated water contents distinct compositions from those rocks. duricrusts are likely formed via vapor-frost cycling at atmosphere-soil...
Abstract As the largest basin on Mars, Utopia Planitia has both experienced and recorded variations of Martian palaeoclimate. Layered subsurface structures have been identified by ground-penetrating radar in southern but lateral subsurface, potentially linked to palaeoclimatic evolution, not investigated. Here we report frequency-variation patterns Zhurong reflections interpret them as buried polygonal terrain below a depth 35 m. Sixteen wedges were within ∼1.2 km distance, suggesting wide...
Abstract Colloidal quantum dots (CQDs) are considered a promising material for the next generation of integrated display devices due to their designable optical bandgap and low energy consumption. Owing dispersibility in solvents, CQD micro/nanostructures generally fabricated by solution‐processing methods. However, random mass transfer liquid restricts programmable construction macroscopy ordered assembly microscopy integration structures. Herein, multi‐interfacial confined strategy is...
Yutu-2 rover conducted an exciting expedition on the 41st lunar day to investigate a fin-shaped rock at Longji site (45.44°S, 177.56°E) by extending its locomotion margin perilous peaks. The varied encountered, especially multi-form wheel slippage, during journey target rock, established unique conditions for fin-grained regolith analysis regarding bearing, shear and lateral properties based terramechanics. Here, we show tri-aspect characterization of infer rock's origin using digital twin....
Polymer electrolytes are promising for solid-state lithium metal batteries, while the intrinsic limitations such as low room-temperature ion conductivity and moderate electrochemical stability exist. Introduction of inorganic particles provides limited...
Abstract Fabrication of high‐quality organic single‐crystalline semiconductors and their deterministic patterning are core opportunities as well challenges for large‐scale integration functional devices with high efficiency boosted performance. Previous approaches on solution have achieved efficient versatile control the position, alignment, size structures. However, poorly controllable dewetting dynamics gives rise to low crystallinity disordered crystallographic orientation generated...
Abstract Fabricating ultrathin organic semiconductor nanostructures attracts wide attention towards integrated electronic and optoelectronic applications. However, the fabrication of with precise alignment, tunable morphology high crystallinity for device integration remains challenging. Herein, an assembly technique fabricating single-crystal arrays different sizes shapes is achieved by confining crystallization process in a sub-hundred nanometer space. The confined realized controlling...
Orientational growth of single-crystalline structures is pivotal in the semiconductor industry, which achievable by epitaxy for producing thin films, heterostructures, quantum wells, and superlattices. Beyond silicon III-V semiconductors, solution-processible such as metal-halide perovskites, are emerging scalable cost-effective manufacture optoelectronic devices, whereas polycrystalline nature fabricated restricts their application toward integrated devices. Here, electrostatic epitaxy, a...
Optical waveguide materials are widely used in optical conversion and communication systems, but their harsh preparation conditions limit practical applications. Herein, we present two zero-dimensional organic metal halide hybrids (OMHHs) with excellent properties, which formed by cocrystallization of d10 transition zinc 2,5-bis(4-pyridinium)thiazolo[5,4-d]thiazole (TTz) using a simple solution-based method. Both compounds have the loss coefficient R for (H2TTz)ZnCl4·MeOH (1) being 0.01577...
Context. Olivine responds to space weathering in the fastest and most profound way, which results significant spectral alteration effects (SWSAEs) on airless silicate bodies. Although Mg-rich olivine (Fa 10 ) has been subjected extensive studies, SWSAEs of Fe-rich (Fa# > 20) or Fa-dominant ⩾ 50) are still poorly understood. Aims. We aim systematically characterize associated alterations surface Phobos Moon. Methods . conducted nanosecond pulsed laser irradiation experiments a set...
We present the proposed strategic study, 'Integrated elements for Martian life signature exploration', to support sampling and identification of any potential biosignatures in compliance with engineering constraints Tianwen-3 mission.