中文内容源自机器翻译,可能存在语法或其他翻译错误,仅供参考。
热电学前沿:传输物理学及其他
Frontiers of Thermoelectrics: Transport Physics and Beyond
截止日期:2025-10-13
该合集旨在将研究人员聚集在一起,以增进我们对电子和声子传输、热电和其他物理特性之间的相互作用以及制造高效设备中出现的问题的理解。
This Collection aims to bring researchers together to advance our understanding of electron and phonon transport, the interaction between thermoelectric and other physical properties, as well as the issues occurring in making high-efficiency devices.
抗病毒治疗
Antiviral Therapy
截止日期:2025-09-20
该系列包含来自所有自然科学的抗病毒策略,应对耐药性挑战并推进转化治疗。
This collection features antiviral strategies from all natural sciences, tackling resistance challenges and advancing translational treatments.
代谢成像在精确诊断和治疗监测方面的突破
Breakthroughs in Metabolic Imaging for Precision Diagnostics and Therapy Monitoring
截止日期:2025-09-23
探索代谢成像的进步,以增强精确诊断和实时治疗监测,推动个性化医疗的创新。
Exploring advances in metabolic imaging to enhance precision diagnostics and real-time therapy monitoring, driving innovation in personalized medicine.
急诊和重症医学中的人工智能
Artificial Intelligence in Emergency and Critical Care Medicine
截止日期:2025-10-10
该合集重点关注急诊科 (ED) 和重症监护室 (ICU) 中人工智能 (AI) 应用的独特挑战和机遇,在这些环境中,快速决策和精确度对于患者的生存至关重要。
This Collection focuses on the unique challenges and opportunities for artificial intelligence (AI) applications in the emergency department (ED) and intensive care unit (ICU), environments where rapid decision-making and precision are critical to patient survival.
数字医学多模态人工智能
Multimodal AI for Digital Medicine
截止日期:2025-09-17
该集合邀请对数字医学中多模式人工智能的变革潜力进行研究,考虑模型性能、公平性和普遍性。
This collection invites research on the transformative potential of multimodal AI in digital medicine, accounting for model performance, fairness, and generalizability.
人工智能和小分子药物发现
AI and Small-Molecule Drug Discovery
截止日期:2025-09-16
该合集邀请研究人员利用人工智能和机器学习来推进小分子药物设计。
This Collection invites research on the use of artificial intelligence and machine learning for advancing small-molecule drug design.
空间生物学
Spatial biology
截止日期:2025-10-10
该合集邀请研究人员为不断发展的空间生物学领域做出贡献,重点关注生物系统的空间组织及其对健康和疾病的影响。我们欢迎探索创新方法、空间组学应用以及高分辨率成像技术集成的提交,以增强我们对细胞微环境和组织结构的理解。
This Collection invites researchers to contribute to the growing field of spatial biology, focusing on the spatial organization of biological systems and their implications for health and disease. We welcome submissions that explore innovative methodologies, applications of spatial omics, and the integration of high-resolution imaging techniques to enhance our understanding of cellular microenvironments and tissue architecture.
疫苗
Vaccines
截止日期:2025-10-10
基因组医学正在呼吁向新的疫苗和疫苗学合集提交资料。由 Paul Klenerman 博士、Nicholas Provine 博士和 Ramon Arens 博士客座编辑,我们现在邀请提交在组学视角下处理疫苗学的研究、方法、软件、数据库和指南手稿。
Genome Medicine is calling for submissions to a new Collection on vaccines and vaccinology. Guest edited by Dr Paul Klenerman, Dr Nicholas Provine, and Dr Ramon Arens, we are now inviting the submission of Research, Method, Software, Database, and Guideline manuscripts that deal with vaccinology under the lens of omics.
线粒体代谢和动力学
Mitochondrial metabolism and dynamics
截止日期:2025-10-10
BMC Biology 正在征集有关线粒体代谢和动力学的资料库。该合集旨在探索线粒体功能、线粒体动力学及其与代谢疾病、神经退行性疾病和癌症的关系的分子机制。我们还邀请您提交有关线粒体功能障碍相关疾病的潜在治疗靶点和干预措施的见解。 我们也欢迎旨在解决问题的研究
BMC Biology is calling for submissions to our Collection on Mitochondrial metabolism and dynamics. This Collection aims to explore the molecular mechanisms underlying mitochondrial function, mitochondrial dynamics, and their involvement in metabolic diseases, neurodegenerative disorders, and cancer. We further invite submissions that provide insights into potential therapeutic targets and interventions for diseases associated with mitochondrial dysfunction. We also welcome research seeking to un
通过界面纳米工程方法可持续绿色制氢
Sustainable Green Hydrogen Production via Interfacial Nanoengineering Approach
截止日期:2025-10-15
在《发现纳米》系列中,水电解过程涉及电化学水分解和光电化学(PEC)水分解及其技术商业前景,包括氢气生产成本,以及利用地球储量和非能源的电极和光电极材料的最新发展。将涵盖贵重材料及其绿色氢气生产的环境影响。
In Discover Nano collection, the water electrolysis process, which involves the electrochemical water splitting and photoelectrochemical (PEC) water splitting and their techno-commercial prospects including H2 production cost, along with recent developments in electrode and photoelectrode materials using earth-abundance and non-noble materials, and their environmental aspects for green H2 production will be covered.
纳米材料增强型储能:从基础到应用
Nanomaterials-Enhanced Energy Storage: From Fundamentals to Applications
截止日期:2025-10-15
这个发现纳米系列旨在弥合纳米材料的基本原理及其在能量存储系统中的应用之间的差距。从材料合成到设备集成,这些研究证明了纳米材料作为推动绿色高效能源存储技术推动者的潜力。行业从业者将找到有关新型材料、新兴设计趋势以及能源存储领域未来方向的宝贵见解。
This Discover Nano collection is to bridge the gap between the fundamental principles of nanomaterials and their applications in energy storage systems. From material synthesis to device integration, these studies demonstrate the potential of nanomaterials as enablers for advancing green and efficient energy storage technologies. Industry practitioners will find valuable insights into novel materials, emerging design trends, and future directions in the energy storage sector.
探索实体机器人技术:连接物理和认知系统
Exploring Embodied Robotics: Bridging Physical and Cognitive Systems
截止日期:2025-10-15
该集合旨在收集实体机器人技术的前沿研究,重点关注智能和自适应机器人开发中物理和认知系统的集成。我们邀请研究人员就物理交互、人机协作、自适应系统和仿生机器人等主题贡献他们的工作,目的是增进我们对实体机器人及其在各个领域的应用的理解。
This Collection seeks to gather cutting-edge research on embodied robotics, focusing on the integration of physical and cognitive systems in the development of intelligent and adaptive robots. We invite researchers to contribute their work on topics such as physical interaction, human-robot collaboration, adaptive systems, and bio-inspired robotics, with the aim of advancing our understanding of embodied robotics and its applications in various domains.
健康基础:探索幼儿营养和营养教育对健康结果的影响
Healthy Foundations: Exploring the Impact of Early Childhood Nutrition and Nutrition Education on Health Outcomes
截止日期:2025-12-31
该探索公共卫生系列旨在探索营养教育、幼儿营养和健康结果之间的联系。我们邀请关注饮食干预、营养教育策略、食品政策及其对儿童健康影响的意见。还鼓励撰写包括系统分析和荟萃分析在内的手稿,研究儿童营养在促进成长期心理健康方面的作用。
This Discover Public Health Collection aims at exploring the linkages between nutrition education, early childhood nutrition, and health outcomes. We invite submissions focusing on dietary interventions, nutrition educational strategies, food policies, and their impacts on the health of children. Manuscripts including systematic and meta-analysis that examine the role of childhood nutrition in promoting mental health during formative years are also encouraged.
医疗保健领域人工智能的经济学
Economics of AI in Healthcare
截止日期:2025-10-10
该合集邀请应用健康经济学来探索医疗保健领域的人工智能 (AI) 的研究。
This Collection invites research on applying health economics for exploring artificial intelligence (AI) in healthcare.
引领可持续创业之旅:实现绿色创新和社会影响的途径
Navigating Sustainable Entrepreneurial Journeys: Pathways to Achieving Green Innovation and Societal Impact
截止日期:2025-10-31
该发现可持续发展系列重点关注可持续发展、创业和创新的交叉点,特别关注可持续发展背景下的创业过程和旅程。我们的目标是探索企业家如何通过将可持续发展融入其商业模式、创新流程和组织结构来应对实现可持续发展目标 (SDG) 的复杂性。
This Discover Sustainability Collection focuses on the intersection of sustainability, entrepreneurship, and innovation, with particular attention to the entrepreneurial process and journey within the context of sustainable development. We aim to explore how entrepreneurs navigate the complexities of achieving Sustainable Development Goals (SDGs) by embedding sustainability into their business models, innovation processes, and organizational structures.
氟化污染物的前沿:应对气候驱动的挑战和解决方案
Frontiers in Fluorinated Pollutants: Navigating Climate-Driven Challenges and Solutions
截止日期:2025-12-31
该发现环境系列旨在探索氟化污染物与气候变化的交叉点,应对新出现的挑战和潜在的解决方案,以减轻其对环境和公共健康的影响。该系列的贡献将为这些污染物在气候变化中的命运提供重要见解,并突出修复和政策制定的创新方法。
This Discover Environment collection seeks to explore the intersection of fluorinated pollutants and climate change, addressing both the emerging challenges and potential solutions to mitigate their environmental and public health impacts. Contributions to this collection will provide critical insights into the fate of these pollutants in a changing climate and highlight innovative approaches for remediation and policy development.
可持续和循环的绿色创业方向趋势
Trends in Green Entrepreneurial Orientation for Sustainability and Circularity
截止日期:2025-09-30
该发现可持续发展系列旨在整合使用绿色技术、绿色流程和创新的多学科方法,为实现可持续发展的三个维度做出贡献。
This Discover Sustainability collection aims to consolidate multidisciplinary approaches that use green technologies, green processes and innovations to contribute to the realisation of the three dimensions of sustainability.
推进元认知研究:机制、应用和创新
Advancing Research on Metacognition: Mechanisms, Applications, and Innovations
截止日期:2025-07-01
元认知——反思和调节自己思维的能力——是人类认知的基石,影响不同背景下的学习、解决问题和决策。这个发现心理学系列旨在汇集前沿研究,探索元认知的基础机制、其在现实世界中的应用以及增强元认知技能的创新方法。
Metacognition – the ability to reflect upon and regulate one’s own thinking – is a cornerstone of human cognition that impacts learning, problem-solving and decision-making across diverse contexts. This Discover Psychology collection aims to bring together cutting-edge research that explores the mechanisms underpinning metacognition, its applications in real-world settings and innovative approaches to enhancing metacognitive skills.
持续危机和灾难的负面和积极的社会心理影响:灾难心理学的见解
The negative and positive psychosocial impact of ongoing crisis and disasters: Insights from Disaster Psychology
截止日期:2025-07-15
我们对灾害造成的社会心理影响的大部分了解都来自于灾害发生后一年内进行的研究,而有关长期影响以及多种灾害对儿童、青少年和成人影响的数据却很少。该发现心理学系列重点关注长期和多重灾害的负面和正面影响,以填补这一知识空白,并提供实用建议,为灾害管理实践提供信息。
Most of our knowledge about the psychosocial impact of disasters comes from studies conducted within a year of the event, while data on the longer-term effects and the impact of multiple disasters on children, adolescents and adults is scarce. This Discover Psychology collection focuses on the negative and positive effects of long-term and multiple disasters in order to fill in this knowledge gap, and to provide practical recommendations to inform disaster management practice.
用于能量收集和存储的胶体纳米晶体的进展
Advances in Colloidal Nanocrystals for Energy Harvesting and Storage
截止日期:2025-07-15
由于其尺寸、形状和表面特性可调,胶体纳米粒子已成为清洁能源收集和存储应用的变革性材料。这些纳米粒子由于量子限制效应和高表面积与体积比而表现出独特的光学、电子和热特性,使其成为应对全球能源挑战的理想且关键的候选者。该系列重点关注能量收集和存储中的胶体纳米颗粒。
Colloidal nanoparticles have emerged as a transformative class of materials for clean energy harvesting and storage applications due to their tunable size, shape, and surface properties. These nanoparticles exhibit unique optical, electronic, and thermal properties from quantum confinement effects and high surface-to-volume ratios, making them ideal and crucial candidates to address global energy challenges. This collection focuses on colloidal nanoparticles in energy harvesting and storage.