Defective TiO2-graphene heterostructures enabling in-situ electrocatalyst evolution for lithium-sulfur batteries
Published 2021 View Full Article
- Home
- Publications
- Publication Search
- Publication Details
Title
Defective TiO2-graphene heterostructures enabling in-situ electrocatalyst evolution for lithium-sulfur batteries
Authors
Keywords
Oxygen vacancy, TiO, 2, Heterostructure, Li-S batteries
Journal
Journal of Energy Chemistry
Volume 62, Issue -, Pages 508-515
Publisher
Elsevier BV
Online
2021-04-23
DOI
10.1016/j.jechem.2021.04.008
References
Ask authors/readers for more resources
Related references
Note: Only part of the references are listed.- In-situ assembly of TiO2 with high exposure of (001) facets on three-dimensional porous graphene aerogel for lithium-sulfur battery
- (2020) Ming Wang et al. Journal of Energy Chemistry
- A strategy to achieve high loading and high energy density Li-S batteries
- (2020) Fei Yin et al. Journal of Energy Chemistry
- Rational design of co nano-dots embedded three-dimensional graphene gel as multifunctional sulfur cathode for fast sulfur conversion kinetics
- (2020) Tongtao Wan et al. Journal of Energy Chemistry
- Improved redox reaction of lithium polysulfides on the interfacial boundary of polar CoC2O4 as a polysulfide catenator for a high‐capacity lithium‐sulfur battery
- (2020) Jin Won Kim et al. ChemSusChem
- A Review of the Design of Advanced Binders for High‐Performance Batteries
- (2020) Feng Zou et al. Advanced Energy Materials
- N-doped carbon-embedded TiN nanowires as a multifunctional separator for Li–S batteries with enhanced rate capability and cycle stability
- (2020) Yoongon Kim et al. Journal of Energy Chemistry
- Multifunctional LDH/Co9S8 heterostructure nanocages as high-performance lithium–sulfur battery cathodes with ultralong lifespan
- (2020) Shixia Chen et al. Energy Storage Materials
- A direct Z-scheme oxygen vacant BWO/oxygen-enriched graphitic carbon nitride polymer heterojunction with enhanced photocatalytic activity
- (2020) Xiuqin Huo et al. CHEMICAL ENGINEERING JOURNAL
- CoB and BN composites enabling integrated adsorption/catalysis to polysulfides for inhibiting shuttle-effect in Li-S batteries
- (2020) Tianli Wu et al. Journal of Energy Chemistry
- Triple-phase interfaces of graphene-like carbon clusters on antimony trisulfide nanowires enable high-loading and long-lasting liquid Li2S6-based lithium-sulfur batteries
- (2020) Chenyang Zha et al. Journal of Energy Chemistry
- Enhancing Catalytic Activity of Titanium Oxide in Lithium–Sulfur Batteries by Band Engineering
- (2019) Yuankun Wang et al. Advanced Energy Materials
- Architecture and Performance of the Novel Sulfur Host Material Based on Ti2O3 Microspheres for Lithium–Sulfur Batteries
- (2019) Peng Zeng et al. ACS Applied Materials & Interfaces
- Dual effects of the carbon fibers/Ti3C2Tx interlayer on retarding shuttle of polysulfides for stable Lithium-Sulfur batteries
- (2019) Qi Jin et al. ELECTROCHIMICA ACTA
- Rationalizing Electrocatalysis of Li–S Chemistry by Mediator Design: Progress and Prospects
- (2019) Yingze Song et al. Advanced Energy Materials
- Conductive and Catalytic VTe2@MgO Heterostructure as Effective Polysulfide Promotor for Lithium–Sulfur Batteries
- (2019) Menglei Wang et al. ACS Nano
- Ultra-lightweight Ti3C2T MXene modified separator for Li–S batteries: Thickness regulation enabled polysulfide inhibition and lithium ion transportation
- (2019) Nuo Li et al. Journal of Energy Chemistry
- Sulfur-embedded porous carbon nanofiber composites for high stability lithium-sulfur batteries
- (2018) Weimin Kang et al. CHEMICAL ENGINEERING JOURNAL
- Oxygen vacancy derived local build-in electric field in mesoporous hollow Co3O4 microspheres promotes high-performance Li-ion batteries
- (2018) Chuanxin Hou et al. Journal of Materials Chemistry A
- Rationally designing S/Ti3C2Tx as a cathode material with an interlayer for high-rate and long-cycle lithium–sulfur batteries
- (2018) Q. Jin et al. Nanoscale
- Photocatalytic Conversion of Nitrogen to Ammonia with Water on Surface Oxygen Vacancies of Titanium Dioxide
- (2017) Hiroaki Hirakawa et al. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
- Combining theory and experiment in electrocatalysis: Insights into materials design
- (2017) Zhi Wei Seh et al. SCIENCE
- A Cooperative Interface for Highly Efficient Lithium-Sulfur Batteries
- (2016) Hong-Jie Peng et al. ADVANCED MATERIALS
- Catalysis with two-dimensional materials and their heterostructures
- (2016) Dehui Deng et al. Nature Nanotechnology
- Hydrothermal etching fabrication of TiO2@graphene hollow structures: mutually independent exposed {001} and {101} facets nanocrystals and its synergistic photocaltalytic effects
- (2016) Hui Liu et al. Scientific Reports
- H-Doped Black Titania with Very High Solar Absorption and Excellent Photocatalysis Enhanced by Localized Surface Plasmon Resonance
- (2013) Zhou Wang et al. ADVANCED FUNCTIONAL MATERIALS
- A green and direct synthesis of graphene oxide encapsulated TiO2 core/shell structures with enhanced photoactivity
- (2013) Hui Liu et al. CHEMICAL ENGINEERING JOURNAL
- A Facile Method to Improve the Photocatalytic and Lithium-Ion Rechargeable Battery Performance of TiO2Nanocrystals
- (2013) Ting Xia et al. Advanced Energy Materials
- Highly Photoactive, Low Bandgap TiO2Nanoparticles Wrapped by Graphene
- (2012) Joon Seok Lee et al. ADVANCED MATERIALS
- Increasing Solar Absorption for Photocatalysis with Black Hydrogenated Titanium Dioxide Nanocrystals
- (2011) X. Chen et al. SCIENCE
- Synthesis of Titania Nanosheets with a High Percentage of Exposed (001) Facets and Related Photocatalytic Properties
- (2009) Xiguang Han et al. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
- Anatase TiO2 single crystals with a large percentage of reactive facets
- (2008) Hua Gui Yang et al. NATURE
Find Funding. Review Successful Grants.
Explore over 25,000 new funding opportunities and over 6,000,000 successful grants.
ExplorePublish scientific posters with Peeref
Peeref publishes scientific posters from all research disciplines. Our Diamond Open Access policy means free access to content and no publication fees for authors.
Learn More