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Paper is an attractively assembled form of materials and has accompanied our daily life almost everywhere. Two-dimensional layered materials, especially graphene, have unique intrinsic structures to be exploited for smart architecture of macroscopic papers that are offering many newly emerging applications.
Multi-metallic carbide nanostructures are one of the many functional materials that can be used for energy generation and storage. The metal carbide nanostructures show better catalytic performance in hydrogen evolution reaction (HER), oxygen reduction reaction (ORR), and oxygen evolution reaction (OER).
Among the commonly reported electrode materials for EES, Ni 3 N is emerging as a new candidate and active material, considering its unique metallic
Nanostructured materials are advantageous in offering huge surface to volume ratios, favorable transport properties, altered physical properties, and confinement effects resulting from the nanoscale dimensions, and
Rational design of multi-compositional hierarchical nanostructures from earth-abundant materials holds great potential in the fields of electrocatalytic hydrogen evolution and supercapacitive
In this review, we focus on the recent advances in new families of 2D materials with rational design and their applications in electrocatalysis and energy storage. 2D materials are composed of elements which are mainly distributed in the different groups highlighted in the periodic table in Fig. 1.
To date, non-noble cobalt (Co)-based materials, including cobalt oxide, cobalt phosphides, cobalt chalcogenides (sulfide and selenides), Co-included layered
Since the two-dimensional (2D) graphene was successfully stripped [1], the concept of 2D material has been put forward, which has aroused extensive research and attention.After graphene, some 2D materials, such as transition metal sulfides [2], [3], metal oxides [4] and hydroxides [5], [6], have emerged one after another and entered
DOI: 10.1016/j.enchem.2022.100081 Corpus ID: 250537221 Three-dimensionally ordered macroporous materials for photo/electrocatalytic sustainable energy conversion, solar cell and energy storage Atomic layer deposition (ALD) has become the most widely used
Advanced Energy Materials is your prime applied energy journal for research providing solutions to today''s global energy challenges. Tierui Zhang, Shuangying Wang, and Yan Jiao, focuses on electrocatalytic and photocatalytic N 2 fixation. It features 14
We reviewed the significant progress and dominated nanostructured energy materials in electrochemical energy conversion and storage devices, including
Electrochemical energy conversion and storage technologies involving controlled catalysis provide a sustainable way to handle the intermittency of renewable energy sources, as well as to produce green chemicals/fuels in an ecofriendly manner. Core to such technology is the development of efficient electrocatalysts with high activity,
Electrocatalytic-driven compensation for sodium ion pouch cell with high energy density and long Energy Storage Materials ( IF 20.4) Pub Date : 2021-04-08, DOI: 10.1016/j.ensm.2021.04.011
In addition to energy supply, sophisticated systems for energy conversion and storage in large scale are critical. MABs, fuel cells, and CO 2 reduction have all played important roles in energy development, and there is still promise for these technologies due to their portability and great energy efficiency in energy storage and conversion [55],
Inspired by mother nature''s creativity, a new class of materials known as porous organic cages (POCs) has become a hot topic of research in the past few decades. Despite the high surface area, porosity, solubility, and other intriguing properties of POCs, the lack of structural designed principles, complex s
Diverse nano-materials have been proposed and designed to be applied for investigation of energy applications. Materials for example metal, metal selenides, metal chalcogenides, metal hydroxides, metal hydrides, metal
Herein, we first summarized the current research progress and drawbacks in energy storage devices (ESDs), and elaborated the role of catalytic effect in enhancing the performance of ESDs as follows: promoting the evolution of the solid electrolyte interphase (SEI), accelerating the reversible conversion of discharge/charge products, and improvin
Jia-Nan Zhang. Introduces advanced research progress of carbon-based nanomaterials in the field of energy conversion and storage. Discusses the in-situ and ex-situ
School of Materials Science and Engineering, National Institute for Advanced Materials, Tianjin Key Lab for Rare Earth Materials and Applications, Nankai University, Tongyan Road 38, Tianjin 300350, China Interests: flexible energy harvesting and storage
In Fig. 1, the overpotential @10 mA cm-2 at t=0 is plotted against overpotential @10 mA cm-2 at t=10 h.Any material that lies after 500 mV in x-axis or in y-axis are not attractive for OER application.A catalyst lying in the range of 400–500 mV from both the axis is good, but a material that falls in this range from x-axis and go outside of
The exploration of post-Lithium (Li) metals, such as Sodium (Na), Potassium (K), Magnesium (Mg), Calcium (Ca), Aluminum (Al), and Zinc (Zn), for electrochemical energy storage has been driven by
Abstract. High-entropy alloys (HEAs), that are composed of more than five metal elements in almost equimolar ratios, have gained considerable interest as electrocatalytic materials because of their high catalytic activity, high porosity, and excellent stability. HEAs have controllable electronic structures and geometric
Guest Editor: Xiangdong Yao,A Special Issue of Chemical Synthesis,Topic: Carbon-Based Materials for Electrocatalytic Energy Conversion and Storage: from Understanding to Designing,Special Issue Introduction:It is vital to discover renewable energy technologies
On the heels of the rapid development of portable electronics, electric vehicles, and renewable energy, electrochemical energy storage (EES) devices have become more prevalent. Electrode materials are key components for EES devices and largely determine their energy storage performance. Transition metal nitr
MBenes can be understood as a novel family of two-dimensional metal borides which are sandwich-like structures analogues to MXenes, fabricated from encrusted MAB phases that have attracted enormous interest in the area of physical science with more emphasis on nanomaterials. These materials due to exhibiting various fascinating characteristics are
Electrocatalytic oxygen evolution reaction for energy conversion and storage: A comprehensive review Author links open overlay panel Muhammad Tahir a d 1, Lun Pan a b 1, Faryal Idrees d, Xiangwen Zhang
Rechargeable batteries are promising electrochemical energy storage devices, and the development of key component materials is important for their wide application, from portable electronics to electric vehicles and even large-scale energy storage systems.
The aim of this Special Issue is to cover the state-of-the-art studies and discussions in electrocatalytic nanomaterials for energy conversion and storage. The topics of prospective publications will include, but are not limited to: High-performance electrocatalysts for industrially-important reactions; Electrocatalysis for fuel cell
Besides, charge transfer inside the organic materials during electrocatalytic reactions can also be successfully tuned by modulating energy band structures. The energy band structure consists of a conductive band ( E c ), valence band ( E v ), and bandgap (Δ E = E v – E c ), and Δ E can be considered as a descriptor of conductivity and E v can reflect the
This review summarizes the development of Ni 3 N as electrode materials for energy storage and conversion. Importance and challenges of Ni 3 N in energy research are discussed. Because of its unique metallic property and excellent conductivity, nickel nitride (Ni 3 N) has received considerable interests in both electrochemical energy
The unique properties of many nanostructures and their surfaces have led to exciting discoveries in the field of catalysis, including electrocatalysis; a type of
Black phosphorus-based materials for energy storage and electrocatalytic Journal of Physics: Energy ( IF 6.9) Pub Date : 2021-09-02, DOI: 10.1088/2515-7655/abff6b
Further, to analyze the structural features, purity, and crystallinity of the prepared catalyst samples, XRD investigations were carried out. The XRD pattern of these samples (Ni 2 P, Ni(PO 3) 2, and Ni 12 P 5) well matched with the JCPD#89-4864, JCPD#22-1190, and JCPD#29-0497, respectively, confirming their phase purity with high
Abstract. Exploring new electrode materials is of vital importance for improving the properties of energy storage devices. Carbon fibers have attracted significant research attention to be used as potential electrode materials for energy storage due to their extraordinary properties. Moreover, greatly enhanced performance has also been
Finally, the challenges and perspectives of 3DOM materials for sustainable energy conversion/production, solar cells and energy storage fields are outlooked. We sincerely look forward to that this critical review can facilitate the fast developments in designing highly efficient 3DOM materials and the relevant applications.
About the journal. Energy Storage Materials is an international multidisciplinary journal for communicating scientific and technological advances in the field of materials and their devices for advanced energy storage and relevant energy conversion (such as in metal-O2 battery). It publishes comprehensive research . View full aims & scope.
This review compiles crucial research findings and recent breakthroughs in electrocatalytic processes utilizing the SECM methodology, specifically focusing on
Graphene-Metal Oxide Hybrid Nanostructured Materials for Electrocatalytic Sensing and Sustainable Energy Storage May 2016 Reviews in Advanced Sciences and Engineering 5(5):4-31
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