With the increasing demand for flexible electronic devices, smaller and lighter flexible supercapacitors have gained significant research attention. Among the various materials, self-supporting reduced graphene oxide (rGO) paper has emerged as one of the most promising electrode materials for supercapacitors due to its low cost, high chemical/thermal stability, and excellent electrical conductivity. Nevertheless, a major drawback of rGO paper is the limited ion diffusion between stacked rGO layers, hindering the effective formation of electrochemical double-layer at the electrode/electrolyte interface. In this study, we prepared the rGO paper derived from ball-milled followed-by water oxidation process for reducing the sheet size. The smaller-sized rGO sheets facilitated ion transport between graphene layers, promoting efficient electric double-layer formation. Moreover, the increased presence of edge planes in ball-milled rGO sheets achieved high capacitance, further enhancing the performance of rGO as an electrode material. Notably, the 2-BMOX rGO paper obtained from ball-milling and wet-oxidized graphite exhibited a capacitance of 117.9 F/g in cyclic voltammetry (CV) and 128.6 F/g in galvanostatic charge–discharge (GCD) tests, approximately twice that of conventional rGO. Additionally, the capacitance retained 91% of its initial performance after 2,000 cycles, indicating excellent cycling stability.

한국 분포가 확인되지 않았던 니토베은주둥이벌 Ectemnius nitobei (Matsumura, 1912)을 경기도 포천시 광릉숲에서 처음으로 확인하였다. 국립수목원 내 휴게광장의 가래나무과(Juglandaceae) 목재 벤치 구멍에서 암컷의 둥지 짓기 행동을 관찰하였으며, 유충의 먹이로 사용하기 위해 나방류 성충을 운반하는 행동을 확인하였다. 본 연구에서는 니토베은주둥이벌 암컷의 전신 사진, 주요 형태학적 진단 형질, 그리고 DNA 바코드 (COI) 서열을 함께 제시하여 향후 국내 분류학적 및 생태학적 연구의 기초 자료로 제공하고자 한다.

This study presents the results of a comprehensive investigation of the macrofungal diversity in South Korea conducted between 2022 and 2025. Our approach has integrated detailed morphological observations with molecular analyses of large subunit (LSU) sequences. In the present study, we have identified four species, Retiboletus fuscus, R. sinensis, R. sinogriseus, and R. zhangfeii —that were previously unrecorded in South Korea. These findings significantly enhance the current understanding of fungal biodiversity within this region and also provide essential foundational data for advancing local and international mycological research.

This study explores the expressive characteristics of new media fashion collections, which have emerged through the convergence of fashion and digital technologies. As new media develops with the integration of old media, fashion collections are increasingly functioning as media tools to convey identity, narrative, and artistic intent beyond aesthetic presentation. Through a literature review and case analysis of collections from 2000 S/S to 2025 S/S, this study defines the term ‘new media fashion collection’ and investigates its communicative functions. The findings reveal that such collections embody the significance of the expansion of space-time, evolution of expression methods, and decentralization of experience, while diversifying meanings and modes of expression based on new media attributes such as extensibility, integrativeness, and interactivity. More specifically, their expressive characteristics can be understood through four characteristics: the direct representation through borrowing, the diversity of message expression, the immersion through unreality, and the narrative construction via editing. Collectively, these characteristics demonstrate how new media fashion collections emphasize themes by using digital technology to borrow or transform old media content. Digital technologies allow fashion collections to unfold across limitless space-time dimensions, positioning them as versatile communication media and enhancing expressive possibilities. These approaches reflect how fashion collections in the digital era integrate technological elements to enrich communication and viewer engagement. This research contributes to the positioning of fashion collections as a form of media and offers a framework for analyzing their evolving expressions. Further, it highlights the need for continued interdisciplinary research bridging fashion, technology, and media theory.

Virtual Reality Head Mounted Display (VR HMD)-based flight simulators have recently emerged as promising tools for enhancing pilot training effectiveness. This study aims to establish a set of evaluation criteria for the development of VR HMD-based flight simulators and to determine their relative importance and priority using the Analytic Hierarchy Process (AHP). Through an extensive review of the literature, a hierarchical evaluation model was constructed, consisting of three primary criteria and ten sub-criteria. A structured questionnaire was administered to experienced pilots, and the collected data were analyzed using the AHP methodology to assess the relative weights of each criterion. The analysis revealed that the fidelity of system performance is the most influential factor in evaluating VR HMD-based flight simulators. These findings present a structured evaluation framework and offer practical insights for guiding the strategic development and optimization of VR HMD-based flight training systems.