Yaqing Guo

ORCID: 0000-0003-4674-8885
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About
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Research Areas
  • Advancements in Battery Materials
  • Advanced Battery Materials and Technologies
  • Supercapacitor Materials and Fabrication
  • Advanced Battery Technologies Research
  • Extraction and Separation Processes
  • Advanced battery technologies research
  • Electrochemical sensors and biosensors
  • Electrochemical Analysis and Applications
  • Recycling and Waste Management Techniques
  • Electrocatalysts for Energy Conversion
  • Traditional Chinese Medicine Analysis
  • Layered Double Hydroxides Synthesis and Applications
  • Machine Learning in Materials Science
  • Conducting polymers and applications
  • Face and Expression Recognition
  • Advanced biosensing and bioanalysis techniques
  • Analytical Chemistry and Sensors
  • Advanced Statistical Methods and Models
  • Catalytic Processes in Materials Science
  • Wood Treatment and Properties
  • Advanced Sensor and Energy Harvesting Materials
  • Electrospun Nanofibers in Biomedical Applications
  • Fuel Cells and Related Materials
  • MXene and MAX Phase Materials
  • Statistical Methods and Inference

Northeast Forestry University
2024-2025

Wenzhou University
2023-2024

Wuhan National Laboratory for Optoelectronics
2020-2024

Huazhong University of Science and Technology
2020-2024

National Institutes for Food and Drug Control
2023-2024

State Key Laboratory of Advanced Electromagnetic Engineering and Technology
2024

Shanxi University
2019-2024

Anhui Normal University
2024

Tianjin University of Traditional Chinese Medicine
2017-2023

Shanxi University of Traditional Chinese Medicine
2023

Abstract Fiber supercapacitors have aroused great interest in the field of portable and wearable electronic devices. However, restrained surface area fibers limited reaction kinetics active materials are unfavorable for performance enhancement. Herein, an efficient multicomponent hierarchical structure is constructed by integrating Cu‐doped cobalt copper carbonate hydroxide@nickel layered double hydroxide (CCCH@NiCo‐LDH) core–shell nanowire arrays (NWAs) on Cu with highly conductive...

10.1002/adfm.201809004 article EN Advanced Functional Materials 2019-04-08

Abstract Polymers have been widely used in energy storage, construction, medicine, aerospace, and so on. However, the complexity of chemical composition morphology polymers has brought challenges to their development. Thanks integration machine learning algorithms large data resources, data‐driven methods opened up a new road for development polymer science engineering. The emerging informatics attempts accelerate performance prediction process optimization by using models based on reliable...

10.1002/inf2.12167 article EN cc-by InfoMat 2021-01-25

Abstract Lithium metal (LM) is a promising anode material for next generation lithium ion based electrochemical energy storage devices. Critical issues of unstable solid electrolyte interphases (SEIs) and dendrite growth however still impede its practical applications. Herein, composite gel polymer (GPE), formed through in situ polymerization pentaerythritol tetraacrylate with fumed silica fillers, developed to achieve high performance batteries (LMBs). As evidenced theoretically...

10.1002/adfm.202301111 article EN Advanced Functional Materials 2023-04-02

Battery recycling is indispensable for alleviating critical material shortages and enabling sustainable battery applications. However, current methods mostly focus on spent batteries, which not only require sophisticated disassembly extraction but also have unknown chemistries states of health, resulting in high costs extreme challenges to achieve regeneration. Here, we propose the direct effective regeneration air-degraded LiNi0.5Co0.2Mn0.3O2 (NCM523) cathode directly from scraps generated...

10.1016/j.esci.2023.100091 article EN cc-by-nc-nd eScience 2023-01-07

This work introduces a transient heating method for direct recycling of battery materials with outstanding efficiency, sustainability, and scalability.

10.1039/d2ee03910a article EN Energy & Environmental Science 2023-01-01

Abstract The organic–inorganic interfaces can enhance Li + transport in composite solid‐state electrolytes (CSEs) due to the strong interface interactions. However, non‐conductive areas CSEs with inert fillers will hinder construction of efficient channels. Herein, fully active conductive networks are proposed improve by composing sub‐1 nm inorganic cluster chains and organic polymer chains. monodispersed matrix a brief mixed‐solvent strategy, their diameter ultrafine dispersion state...

10.1002/adma.202303226 article EN Advanced Materials 2023-08-26

Abstract Suppressing dendrite growth in zinc (Zn) anodes for aqueous Zn batteries remains a significant challenge. Modifying the Zn/electrolyte interface stands out as one of most promising strategies to tackle this problem. In study, nanometer‐thick ZnO coating layer with uniform concave surface geometry is situ constructed modify anode first time. The chemical bond formed between and foil enhances structural stability synthesized modified‐Zn anode. Finite element simulations indicate that...

10.1002/adfm.202312220 article EN Advanced Functional Materials 2023-12-18

Artificial intelligence (AI) has received widespread attention over the last few decades due to its potential increase automation and accelerate productivity. In recent years, a large number of training data, improved computing power, advanced deep learning algorithms are conducive wide application AI, including material research. The traditional trial‐and‐error method is inefficient time‐consuming study materials. Therefore, especially machine learning, can process by rules from datasets...

10.1002/aisy.201900143 article EN cc-by Advanced Intelligent Systems 2020-02-11

We introduce the atomistic observation and high-temperature shock to trigger Li–Fe reordering in LiFePO 4 , which offers a precise efficient pathway for direct recycling regeneration, along with significant techno-economic benefits.

10.1039/d4ee01622j article EN Energy & Environmental Science 2024-01-01

Abstract Wearable in‐plane Zn‐based microbatteries are considered as promising micropower sources for wearable electronics due to their high capacity, low cost, safety, and easy integration. However, applications severely impeded by inadequate energy density arising from unsatisfactory capacity of cathode poor cycling stability caused degradation electrode materials Zn dendrite. Additionally, the short‐circuit induced safety issue dendrite is still a roadblock microbatteries. Herein,...

10.1002/smll.202000293 article EN Small 2020-03-20

To address the pollution issues of industrial oily wastewater and catering industry wastewater, a series Ti3C2Tx/TEMPO oxidized cellulose nanofibers composite aerogels with varying Ti3C2Tx content were successfully prepared using liquid nitrogen non-directional directional freezing methods, TEMPO (TOCNF) as main raw materials. The samples then hydrophobically modified methyltrichlorosilane (MTCS) via chemical vapor deposition (CVD). results showed that Ti3C2Tx/TOCNF aerogel had most orderly...

10.3390/polym17030273 article EN Polymers 2025-01-22

AI in Materials Science As reviewed by Prof. Yuan-Cheng Cao and co-workers article number 1900143, with the assistance of machine learning, application materials science including property prediction, synthesis route planning, processing optimization, has been boosted. The future development direction is expounded from both hardware software aspects to power engineering.

10.1002/aisy.202070042 article EN cc-by-nc Advanced Intelligent Systems 2020-04-01

Rechargeable lithium metal batteries (LMBs) offer excellent opportunities for applications requiring high-energy-density battery systems. So far, it has received a lot of interest in pairing higher-energy-density high-voltage nickel-rich cathodes. Here, fluorinated solvents were used instead the usual carbonate to prepare gel polymer electrolytes (FGPE) by situ polymerization polymers introducing fluorine-containing groups. Theoretically and experimentally, FGPE proven be ultra-compatible...

10.1021/acsami.3c05840 article EN ACS Applied Materials & Interfaces 2023-08-04

Transition metal oxides (TMOs) are widely studied for loading of various catalysts due to their low cost and high structure flexibility. However, the prevailing close-packed nature most TMOs crystals has restricted available sites surface only, while internal bulk lattice remains unactuated inaccessible narrow space that blocks out key reactants and/or particulate catalysts. Herein, using tunnel-structured MnO

10.1002/adma.202312566 article EN Advanced Materials 2024-04-17
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