Biomedical materials benefit health

BMEMat Pub Date : 2023-02-21 DOI:10.1002/bmm2.12013
Hong Liu, Haohai Yu, Jianhua Li
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引用次数: 1

Abstract

Biomedical engineering is acclaimed as the most effective technological advancement—the stepping- stone toward better human health. An in-depth look into biomedical engineering reveals that emerging materials are recognized as the turbocharger for its progress and the source of innovation. For example, the application of advanced nanomaterials in drug delivery, bioimaging, gene therapy, and so on are pioneering new ways to diagnose and treat cancer and other diseases; tissue repair and organ regeneration are no longer dreams, but attainable miracles because of 3D bioprinted scaffold materials; flexible electronic materials and brain-computer interface chips remove barriers in human-computer interaction, enabling scientists to better interpret the mysteries of life. In addition, functional materials construct diverse diagnosis and treatment equipment, such as microfluidics and major medical devices. Evolving from the deep integration of materials science and biomedical engineering, this popular and innovative research field will enormously benefit people's life and health.

Upholding the philosophy of “BME Materials Benefit Health,” BMEMat was launched under the auspices of Shandong University and Wiley. With a commitment to building the most valuable international platform to share knowledge and information, BMEMat covers all research advances related to functional materials for biomedical applications. The article types include Original Articles, Review Articles, Editorials, Short Communications, and Letters to the Editor (author guidelines are available at https://onlinelibrary.wiley.com/page/journal/27517446/homepage/author-guidelines). BMEMat adopts an open-access publishing model and will expand the coverage of Wiley's current materials science journals into biomedical engineering.

BMEMat creates an active community by attracting interdisciplinary research in biomedical engineering and materials science. Our professional editorial board comprises the most experienced scientists in the BME field. The Editor-in-Chief, Prof. Hong Liu from State Key Laboratory of Crystal Materials, Shandong University, is the winner of National Outstanding Youth Fund and is among the world's highly-cited scientists.

We have nine Associate Editors on board to assist the Editor-in-Chief to expediate the peer review process: Prof. Xiaogang Liu from the National University of Singapore (Singapore), Prof. Wenbo Bu from Fudan University (China), Prof. Chuanbin Mao from University of Oklahoma (USA), Prof. Fan Yi from Shandong University (China), Prof. Andreu Cabot from Catalonia Institute for Energy Research (Spain), Prof. Xiaohu Gao from University of Washington, Seattle (USA), Prof. Angus Johnston from Monash University (Australia), Prof. Xingjie Liang from University of Chinese Academy of Sciences (China), and Prof. Xuebin Yang from University of Leeds (UK).

The elite editorial team with their diversity of insights and expertise will provide efficient peer review services and post-acceptance processes to our authors and reviewers, and present our readers with the most important, in-depth, and frontier basic and applied research achievements.

We sincerely look forward to welcoming you—as a reader, author, reviewer or commenter—to engage with our journal. We believe that BMEMat will become one of the leading international publishing platforms in the interdisciplinary area of material science, biochemistry, biology, biomedical engineering, and medicine, by providing information on the most important advances in this field to a broader group of researchers and engineers from both academia and industry.

The authors declare no conflicts of interest.

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生物医学材料有益健康
生物医学工程被誉为最有效的技术进步,是改善人类健康的垫脚石。对生物医学工程的深入研究表明,新兴材料因其进步和创新来源而被公认为涡轮增压器。例如,先进纳米材料在药物递送、生物成像、基因治疗等方面的应用开创了诊断和治疗癌症和其他疾病的新途径;由于3D生物打印支架材料,组织修复和器官再生不再是梦想,而是可以实现的奇迹;柔性电子材料和脑机接口芯片消除了人机交互的障碍,使科学家能够更好地解读生命的奥秘。此外,功能材料构建了多种诊断和治疗设备,如微流体和主要医疗设备。从材料科学和生物医学工程的深度融合发展而来,这一受欢迎和创新的研究领域将极大地造福于人们的生命和健康。秉承“BME材料有益健康”的理念,BMEMat由山东大学和威立共同发起。BMEMat致力于建立最有价值的国际知识和信息共享平台,涵盖生物医学应用功能材料的所有研究进展。文章类型包括原创文章、评论文章、社论、简短交流和致编辑的信件(作者指南可在https://onlinelibrary.wiley.com/page/journal/27517446/homepage/author-guidelines)。BMEMat采用开放获取的出版模式,并将把威利目前的材料科学期刊的覆盖范围扩大到生物医学工程。BMEMat通过吸引生物医学工程和材料科学的跨学科研究,创建了一个活跃的社区。我们的专业编辑委员会由BME领域最有经验的科学家组成。主编:山东大学晶体材料国家重点实验室刘洪教授,国家杰出青年基金获得者,世界顶尖科学家。我们有九位副主编协助主编加快同行评审过程:新加坡国立大学的刘晓刚教授、复旦大学的卜文博教授、美国俄克拉何马大学的毛传斌教授、山东大学的范毅教授、。西班牙加泰罗尼亚能源研究所的Andreu Cabot教授、美国西雅图华盛顿大学的Xiaohu Gao教授、澳大利亚莫纳什大学的Angus Johnston教授、中国科学院大学的梁兴杰教授和。来自英国利兹大学的杨学斌。精英编辑团队凭借其丰富的见解和专业知识,将为我们的作者和审稿人提供高效的同行评审服务和后期验收流程,并向我们的读者展示最重要、最深入、最前沿的基础和应用研究成果。我们真诚地期待着欢迎您——作为读者、作者、评论家或评论者——加入我们的期刊。我们相信,BMEMat将通过向来自学术界和工业界的更广泛的研究人员和工程师群体提供该领域最重要进展的信息,成为材料科学、生物化学、生物学、生物医学工程和医学跨学科领域的领先国际出版平台之一。作者声明没有利益冲突。
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Issue Information Diffusion-induced phase separation 3D printed scaffolds for dynamic tissue repair (3/2024) Infection-responsive polysaccharide-based drug-loaded nano-assembly for dual-modal treatment against drug-resistant bacterial lung infection (3/2024) Is deep brain imaging on the brink of transformation with a bioluminescence molecule? Reverse thinking: Tumor nutritional therapy
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