Harbin Institute of Technology (Adv. Mater. 6/2021)
This special issue is dedicated to the 100th Anniversary of Harbin Institute of Technology (HIT). Recent achievements in multidisciplinary materials
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New frontier of hybrid energy storage devices: evolution
This review compiles a comprehensive range of materials, showcasing their evolution from traditional to advanced forms based on
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100th Anniversary of Harbin Institute of Technology: Advanced
The behavior of nanomaterials in different EET routes and their influence on BESs performance are described, which will guide rational design of EET-related materials and better
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Yudong Huang''s lab | Harbin Institute of Technology (HIT)
This study offers a facile and efficient strategy for developing 2D MXene-based energy storage devices with a stable interface and favorable electrochemical performance.
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Yurong HE | Professor | PhD | Harbin Institute of
The addition of external force provides an alternative way to promote the application of phase change materials in thermal-energy storage, space heating, and
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Hybrid electrolyte enables solid-state sodium batteries sustaining
Abstract Solid-state sodium (Na) batteries open the opportunity for more sustainable energy storage due to their safety, low cost and high energy density. Inorganic solid electrolytes show notable
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Multidisciplinary Materials Research at Harbin Institute of
This Special Issue of Advanced Materials, commemorating the 100th anniversary of Harbin Institute of Technology (HIT) is a collection of Reviews and Progress Reports articles by the fac-ulty members
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Hybridization design of materials and devices for flexible
Herein, we comprehensively review the key aspects of flexible electrochemical energy storage systems with hybrid design from the electrode materials and devices to overcome these
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Hua KE | Associate Professor | Doctor of Engineering | Harbin Institute
Hua KE, Associate Professor | Cited by 830 | of Harbin Institute of Technology, Harbin (HIT) | Read 72 publications | Contact Hua KE
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Materials Horizons Emerging Investigator Series: Dr Yu Feng, Harbin
Our Emerging Investigator Series features exceptional work by early-career materials science researchers. Read Yu Feng''s Emerging Investigator Series article ''Ultrahigh energy storage
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Yujie FENG | Ph.D, Prof | Harbin Institute of
Bioelectrochemical-based biogas upgrading is a promising technology for the storage of renewable energy and reduction of the global greenhouse gas
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Multidisciplinary Materials Research at Harbin Institute of Technology
In 1996, Harbin Institute of Technology (HIT) was the first batch of universities included in the Project 211 list. In 1999, Harbin Institute of Technology (HIT) became one of the top-nine key
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Locust-Derived Biohybrid Muscle Actuators for Low-Power
Introduction The development of functional materials for miniaturized actua-tion systems is a critical challenge for applications such as explora-tion and emergency response in confined
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Wei QIN | Harbin Institute of Technology, Harbin | HIT | Architecture
Aqueous redox flow batteries (ARFBs) are a promising technology for grid-scale energy storage, however, their commercial success relies on redox-active materials (RAM) with high electron storage
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Hybrid Materials for Electrochemical Energy Storage
In this review, we highlight the emerging potential of hybrid materials in energy storage applications, particularly as electrode and electrolyte materials. We describe model hybrid energy
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New frontier of hybrid energy storage devices: evolution of
Nanocomposite materials have transformed hybrid energy storage by leveraging the synergistic integration of carbona-ceous, polymeric, and ceramic components, resulting in increased
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Li MA | Professor (Full) | PhD | Harbin Institute of
This study proposes multifunctional metamaterials possessing both load-bearing capacity and energy storage capability, comprising multi-phase lattice
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Hybrid Nanomaterials for Next-Generation Energy Storage
This collection focuses on the synthesis, characterization, and application of innovative hybrid nanomaterials for advanced energy storage and conversion.
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MIIT Key Laboratory of Critical Materials Technology for New Energy
MIIT Key Laboratory of Critical Materials Technology for New Energy Conversion and Storage, HIT has the following research output in the current window (1 November 2024 - 31 October
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Zengyan WEI | Associate Professor | PhD | Harbin Institute of
Organic molecules have been considered promising energy storage materials in aqueous zinc-ion batteries (ZIBs), but are plagued by poor conductivity and structural instability because of the short
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Multidisciplinary Materials Research at Harbin Institute of
In the field of energy-storage materials, Prof. Chunsheng Wang reviews recent advances and gives perspective on all-solid-state Li/S batteries using sulfide solid electrolytes (article number 2000751).
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Yu Li
Harbin university of science and technology - Cited by 3,100 - heterostructure materials - hybrid capacitors - lithium ion batteries
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Advanced/hybrid thermal energy storage technology: material, cycle
Each advanced/hybrid TES technology has a certain improvement over basic TES, such as increasing the energy storage density or energy storage efficiency, reducing the charging
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Dawei WANG | Professor | Doctor of Engineering | Harbin Institute of
My research focuses on the advanced electronic ceramics for energy storage/conversion/harvesting, and translation of new materials to porotype devices/components for electronic systems.
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Harbin engineering energy storage technology
Affiliations 1 MIIT Key Laboratory of Critical Materials Technology for New Energy Conversion and Storage, School of Chemistry and Chemical Engineering, Harbin Institute of Technology, Harbin
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Superior High-Temperature Capacitive Energy Storage Enabled by
High-temperature capacitive energy storage is critical for next-generation electronics and power systems, yet it is hindered by the severe performance degradation of polymer dielectrics at elevated
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Yudong Huang''s lab | Harbin Institute of Technology (HIT)
Polynary transition-metal layered hydroxides are promising energy materials owing to their unique architecture, impressive theoretical capacities, and adjustable compositions.
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Hybrid energy harvesting technology: From materials, structural design
Given the continuously growing trend of hybrid energy harvesting technology, herein we present a comprehensive review of recent progress and representative works, especially focusing on
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