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"3D Pathways Enabling Highly-Efficient Lithium Reservoir for Fast-Charg" by Sang A. Han, Joo Hyeong Suh et al.

Enhancing the mobility of lithium-ions (Li+) through surface engineering is one of major challenges facing fast-charging lithium-ion batteries (LIBs). In case of demanding charging conditions, the use of a conventional artificial graphite (AG) anode leads to an increase in operating temperature and the formation of lithium dendrites on the anode surface. In this study, a biphasic zeolitic imidazolate framework (ZIF)-AG anode, designed strategically and coated with a mesoporous material, is verified to improve the pathways of Li+ and electrons under a high charging current density. In particular, the graphite surface is treated with a coating of a ZIF-8-derived carbon nanoparticles, which addresses sufficient surface porosity, enabling this material to serve as an electrolyte reservoir and facilitate Li+ intercalation. Moreover, the augmentation in specific surface area proves advantageous in reducing the overpotential for interfacial charge transfer reactions. In practical terms, emplo ....

3d Amorphous Carbon Channels , Fast Charging , Porous Structure , Eolitic Imidazolate Framework ,

"Enhanced lithiophilicity via bismuth-infused framework for advanced li" by Joo Hyeong Suh, Hamzeh Qutaish et al.

Utilizing carbon materials as 3D lithium (Li) hosts hold a significant interest in constructing high-energy batteries. However, there are ongoing challenges associated with these frameworks owing to their poor Li affinity. Recent advancements, including alloying reactions with precious metals like silver (Ag) and gold (Au), have emerged as a promising technique to enhance the electrochemical performance of these host materials. Nevertheless, the search for cost-effective alternatives remains a pressing demand. Herein, this work employed galvanic displacement (GD) to integrate bismuth into disordered porous carbon (Bi-DPC) and optimized across different concentrations (0.01, 0.05, 0.1 M). As a result, the Li deposition onto the Bi-DPC surface exhibited dendrite-free planar morphologies, revealing an outstanding electrochemical performance, including a high CE of around 100 % over more than 100 cycles. These findings underscore the potential of Bi-infused porous carbon as a promising alt ....

3d Amorphous Carbon , Alvanic Displacement , Li Metal Batteries , Porous Structure , Eolitic Imidazolate Framework ,

"Nanoarchitectonics of lithium ion pathways through pores in a carbon f" by Sang A. Han, Joo Hyeong Suh et al.

The utilization of lithium (Li) metal as an anode has attracted significant attention for high-energy Li batteries. Unfortunately, uncontrollable Li dendrite cannot be avoided during Li plating and stripping. Much intensive research has been conducted to suppress the dendritic growth by confinement of metallic Li in host architectures. Recently, zeolitic imidazolate frameworks (ZIFs) with a porous features have been used to explore a new approach to storing the Li metal with the advantages of their structural and chemical stability, large surface areas, and large pore cavities. Herein, we investigate the storage capability of metallic Li in a porous carbon framework derived from ZIFs as a function of carbonization temperature. Diversities in pore volumes and channels, the degree of crystallinity, the amount of residual zinc (Zn) metal, and the electrical conductivity can all be controlled by temperature. We demonstrate that well-connected pore channels and adequate electrical conductiv ....

Lithium Metal Storage , Anoporous Carbon Architecture , Yrolysis Temperature , Eolitic Imidazolate Framework ,

"Dry-Electrode All-Solid-State Batteries Fortified with a Moisture Abso" by Jae Yup Jung, Sang A. Han et al.

For realizing all-solid-state batteries (ASSBs), it is highly desirable to develop a robust solid electrolyte (SE) that has exceptional ionic conductivity and electrochemical stability at room temperature. While argyrodite-type Li6PS5Cl (LPSCl) SE has garnered attention for its relatively high ionic conductivity (∼3.19 × 10-3 S cm-1), it tends to emit hydrogen sulfide (H2S) in the presence of moisture, which can hinder the performance of ASSBs. To address this issue, researchers are exploring approaches that promote structural stability and moisture resistance through elemental doping or substitution. Herein, we suggest using zeolite imidazolate framework-8 as a moisture absorbent in LPSCl without modifying the structure of the SE or the electrode configuration. By incorporating highly ordered porous materials, we demonstrate that ASSBs configured with LPSCl SE display stable cyclability due to effective and long-lasting moisture absorption. This approach not only improves the overa ....

All Solid State Battery , Rgyrodite Li Ps Cl 6 5 , Dry Electrode , Oisture Adsorbent , Eolitic Imidazolate Framework ,

"Nanoarchitectonics of the cathode to improve the reversibility of Li–O" by Hien Thi Thu Pham, Jonghyeok Yun et al.

The strategic design of the cathode is a critical feature for high-performance and long-lasting reversibility of an energy storage system. In particular, the round-trip efficiency and cycling performance of nonaqueous lithium–oxygen batteries are governed by minimizing the discharge products, such as Li2O and Li2O2. Recently, a metal–organic framework has been directly pyrolyzed into a carbon frame with controllable pore volume and size. Furthermore, selective metallic catalysts can also be obtained by adjusting metal ions for outstanding electrochemical reactions. In this study, various bimetallic zeolitic imidazolate framework (ZIF)-derived carbons were designed by varying the ratio of Zn to Co ions. Moreover, carbon nanotubes (CNTs) are added to improve the electrical conductivity further, ultimately leading to better electrochemical stability in the cathode. As a result, the optimized bimetallic ZIF–carbon/CNT composite exhibits a high discharge capacity of 16,000 mAh·g−1, ....

Zn To Co , Cathode Composition , Io Battery 2 , Metal Organic Framework , Eolitic Imidazolate Framework ,