期刊名称:NANO FUTURES
期刊简介(About the journal)
投稿须知(Instructions to Authors)
编辑部信息(Editorial Board)
About the journal
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Scope
Nano Futures mission is to reflect the diverse and multidisciplinary field of nanoscience and nanotechnology that now brings together researchers from across physics, chemistry, biomedicine, materials science, engineering and industry.
Article types
Nano Futures welcomes submissions of the following article types:
- Letters: outstanding concise articles (5000 words), reporting an urgent, breakthrough development in terms of either the fundamental science or novel application of a nanoscale system. These articles should be deserving of priority review, and you are required to upload a justification statement along with your submission.
- Research Papers: articles of unlimited length that report new research of outstanding quality, and which make a significant advance in the field.
- Perspectives: commissioned brief commentaries that highlight the impact and wider implications of new research reported in Nano Futures. Perspectives may occasionally be commissioned by the Editorial Board on a broader theme of relevance to the nanoscience community.
- Roadmaps: specially commissioned collaborative articles, guided by the Editorial Board, that provide a unique future-oriented outlook, charting near and long-term development goals, on a topic/theme of particular current interest to the nanoscience community.
Abstracting and indexing services
We work with our authors to help make their work as easy to discover as possible. Nano Futures is currently included in the following abstracting and discovery services:
- Chemical Abstracts Service
- Inspec
- NASA Astrophysics Data System
- Scopus
- Web of Science (Science Citation Index Expanded)
- Yewno Unearth
Instructions to Authors https://publishingsupport.iopscience.iop.org
Editorial Board Editorial leadership The Editor-in-Chief and International Executive Board of Nano Futures provide expert guidance and support peer review of all articles in the journal.
Editor-in-Chief
International Executive Board
Editorial Board
Anlian Pan, College of Physics and Microelectronics, Hunan University Director of the Key lab for Micro-Nano physics and Technologies of Hunan Province
Manuel Arruebo, University of Zaragoza, Spain Synthesis of nanoparticulated materials by using microfluidic reactors, nanoparticle biofunctionalization and their application in drug delivery, photothermal therapy, gene therapy and combination therapies
Yoshio Bando, National Institute for Materials Science, Tsukuba, Japan Synthesis of novel nanotubes, micro-structural analysis using analytical electron microscope, inorganic nanostructures
Supriyo Bandyophadhyay, Virginia Commonwealth University, USA Nanostructure arrays, spintronics, quantum devices, carrier transport in nanostructures, nanoelectronics, quantum computing
Karl Berggren, Massachusetts Institute of Technology, MA, USA Nanofabrication technologies, self assembly, sub 10nm patterning, quantum nanostructures
Christian Brosseau, Université de Bretagne Occidentale, France Plasmonics, image processing, nanophysics, biological physics, computational materials physics.
Markus Buehler, Massachusetts Institute of Technology, MA, USA Biomateriomics, nano synthesis, materials by design, hierchical nanostructues
Sarah Burke, University of British Columbia, Canada Scanning probe microscopy, organic materials, nanoscale materials, surface physics, photovoltaics.
Jamal Deen, McMaster University, Hamilton, Canada Sensing devices for medical and environmental applications, optical detector systems, semiconductor devices and circuits
Antonio Di Bartolomeo, University of Salerno, Italy Nanowires, graphene and 2D materials, field effect transistors, non-volatile memories, Schottky diodes and van der Waals heterojunctions, photodetection and field emission
Tal Dvir, Tel Aviv University, Israel Tissue engineering, regenerative medicine, drug delivery.
Hongjin Fan, Nanyang Technological University, Singapore Nanosynthesis, optical properties of low-dimensional semiconductors, energy-related applications of nanotechnology
Anna Fontcuberta-i-Morral, École Polytechnique, Lausanne, Switzerland
Arindam Ghosh, Indian Institute of Science, Bangalore, India Transport-properties of 2D electronic systems, carbon-based materials, magnetic nanostructures.
George Grüner, University of California Los Angeles, USA Nano-structured and device printed electronics, applied nanotechnology, nanosensors
Sergei Kalinin, Oak Ridge National Laboratory, TN, USA Big data in nanotechnology, deep data, AFM, SPM, electrical and transport phenomena on the nanoscale
Dae Joon Kang, Sungkyunkwan University, South Korea Growth and device applications of inorganic nanostructured materials, development of novel flexible and wearable electronics
Mario Lanza, Soochow University, China Nanoelectronics, resistive switching devices, 2D materials based electronic devices, reliability and variability
Yue Li, Chinese Academy of Sciences, China Plasmonic coupling, optical sensors, catalytic activity, self-assembly, noble metal nanomaterials
Stuart Lindsay, Arizona State University, AZ, USA Molecular biophysics and nanoscience, improving diagnosis and understanding the molecular basis of disease
Jan Linnros, KTH Royal Institute of Technology, Sweden Semiconductor materials, silicon nanostructures, nanofabrication methods
Jinping Liu, Wuhan University of Technology, China. Nanostructures, batteries and supercapacitors, nanoelectrochemistry and related applications.
Kaihui Liu, Peking University, China Low-dimensional materials, one-dimensional carbon nanotubes systems, optical techniques
Mervyn Miles, University of Bristol, UK AFM, SPM, optical trapping, high-speed AFM, SPM on single molecules
Alexander Obraztsov, Moscow State University, Russia
Wee-Jun Ong, Xiamen University Malaysia, Malaysia Photocatalysis, photoelectrocatalysis, artificial photosynthesis, 2D nanomaterials, heterojunction interfaces
Samit Ray, Indian Institute of Technology, Kharagpur, India Semiconductor nanostructures, silicon photonics, photovoltaics and nano-scale devices.
Fengqi Song, Nanjing University, China Atomic clusters, topological materials, low-temperature transport, electrical nanodevices, mesoscopic physics
Michael Steigerwald, Columbia University, NY, USA Catalysis, physical chemistry, materials chemistry
Mahendra Sunkara, University of Louisville, KY, USA Solar cells, lithium ion batteries, electrochromics, production of hydrogen from water, bulk quantities of nanowires.
Bozhi Tian, The University of Chicago, IL, USA. Nanowire materials synthesis, nanowire photovoltaics, nanowire devices in cells and tissue
John Vajo, HRL Laboratories LLC, CA, USA Hydrogen storage, light metal hydride systems, alternative energy applications
George Whitesides, Harvard University, Cambridge, MA, USA Chemistry, materials science, biophysics, the hydrophobic effect, surface science, microfluidics, self-assembly
Stanislaus Wong, State University of New York, NY, USA Carbon nanotube functionalization, green nanostructure synthesis, fuel cells, solar cells
Hui Yang, Suzhou Institute, Jiangsu, China MBE and MOCVD growth, GaN based LED and LD, III-V solar cells
Chris Yip, University of Toronto, Canada Single-molecule biophysics, biomaterials and tissue engineering, molecular systems biology and nanotechnology
Haibo Zeng, Nanjing University of Technology and Engineering Institute, China Calculation and optoelectronics of 2D semiconductors, perovskite optoelectronics, luminescent materials, quantum dots, LEDs.
Chongwu Zhou, University of Southern California, CA, USA Carbon nanotubes, two-dimensional materials, lithium/sodium ion batteries, and bio nanotechnology.
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