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Journal of Nanoelectronics and Optoelectronics
ISSN: 1555-130X (Print): EISSN: 1555-1318 (Online)
Copyright © 2000- American Scientific Publishers. All Rights Reserved.

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A Special Issue on, “Nanomaterials based Rechargeable Batteries and Supercapacitors”

The rise of high-power microprocessors, lightweight, implantable biomedical devices, and the need for smaller energy storage components in energy harvesting devices have resulted in a surge of interest in new battery and supercapacitor technologies. One way to overcome some of these limitations is to design rechargeable battery systems that include materials with much higher capacities (mass-specific and volumetric) than conventional electrodes. Materials such as graphene, lithium metal oxides, metal alloys, and intercalation compounds have been investigated by many researchers but still encounter challenges that limit their practical applications. Nanotechnology can potentially overcome these challenges through the use of novel nanomaterials or material structures The Industrial synthesis of rechargeable batteries and supercapacitor technology is a very necessary field today because it is believed that both these technologies can change the way electricity is generated and used by human beings. They will be of great importance in many fields; for example, producing any electric device for a long time requires these technologies as their driving force. Developing new materials for energy storage and conversion is one of the most promising ways to address the global demand for clean energy. As a result, an enormous research effort has been invested in finding efficient electrolytes and electrodes for rechargeable batteries and supercapacitors.

The demand for rechargeable batteries has gradually increased in the past decade. As technology improves and newer applications are found, the demand will continue to grow rapidly. Over the years, researchers have developed various rechargeable battery technologies; however, none of them have met all our demands. There is an urgent need to develop new materials with better performance than existing ones whilst keeping in mind cost-effectiveness and safety aspects. This can be achieved only by conducting focused and concentrated research on them. Conventional lithium-ion batteries and supercapacitors provide high energy density but are limited by their poor cycle life and low power density. Micro- and nano-sized materials present new opportunities for energy storage as they can reduce the dendrite growth in lithium-based batteries and improve cyclability, increase the gravimetric or volumetric energy densities by improved packing of active material, reduce short circuit current densities through controlled morphology of electrodes, make use of electric double layer capacitance to increase power density and make use of nanostructures such as carbon nanotubes that have much higher theoretical capacitance than conventional electrodes. Such advances point towards practical realizations of better-performing battery technologies shortly.

This Special issue aims to bring together research results and knowledge in the new technologies for rechargeable batteries and supercapacitors. High-power density systems require a different approach from lithium-ion batteries and lead acid batteries, which are mainly used today. Micro- and nanotechnologies have increasingly become a major driving force in multifunctional battery materials design. The purpose of this special issue is to highlight advances in these areas.

Potential topics of interest include but are not limited to:
  • Nanostructured electrodes and materials for high-performance lithium batteries
  • Next generation supercapacitors: an overview of recent advances in materials, synthesis, and design
  • Mechanical properties of electrodes for lithium-ion batteries: Anisotropic behavior and its correlation with electrochemical performance
  • Recent trends in Nanostructured electrodes for high energy density supercapacitors
  • Electrochemical energy storage systems based on metal oxides, carbon nanotubes, and graphene materials
  • Electrode materials, fabrication, and characterization techniques
  • New materials and electrode design for rechargeable batteries and supercapacitors
  • Nanostructured electrodes and electrolytes for high-power density batteries
  • Electrochemical properties of lithium-ion batteries with nanomaterials
  • High energy density systems based on lithium polymer cells, which use a polymer electrolyte instead of a liquid electrolyte
  • Modeling, simulation, and experimental studies on rechargeable batteries
  • Experimental investigation of structural changes during cycling for different electrode materials
  • Battery materials, supercapacitor electrodes, and electrolytes for high-power-density systems
  • Nanomaterials for high-power density batteries and supercapacitors

Guest Editor Information:

Dr. Ahmad H. Sabry
Institute of Power Engineering (IPE),
College of Engineering, Universiti Tenaga Nasional (UNITEN),
43000 Kajang, Selangor, Malaysia.
E-mail: ahmadh@uniten.edu.my,sozyahs@gmail.com
Google Scholar:
https://scholar.google.com/citations?user=zmgyHt4AAAAJ&hl=en
IEEE:
https://ieeexplore.ieee.org/author/37085595450
Biography:
Ahmad H. Sabry was born in Baghdad, Iraq. He received the B.Sc. and M.Sc. degrees in electrical and electronics, control and automation, engineering from the University of Technology-Baghdad, Iraq, in 1994 and 2001, respectively. He received the Ph.D. degree in DC Based PV-Powered Home Energy System from Department of Electrical and Electronic Engineering, control and automation at UPM, Malaysia in 2017. He is the author of more than 35 articles, and more than 5 inventions, and holds one patent. His research interests include Integrated Solar Powered Smart Home System Based on Voltage Matching, DC distribution, industrial robotic systems, wireless energy management systems.

Dr. Nasri Sulaiman
Department of Electrical and Electronic Engineering,
Faculty of Engineering, Universiti Putra Malaysia,
43400 Serdang, Selangor, Malaysia
E-mail: nasri_sulaiman@upm.edu.my
Google Scholar:
https://scholar.google.ca/citations?user=LLO9HpYAAAAJ&hl=en
IEEE:
https://ieeexplore.ieee.org/author/38185144600
Biography:
Nasri Sulaiman (Member, IEEE) received the bachelor’s degree in electronics and computer engineering from Universiti Putra Malaysia (UPM), Malaysia, in 1994, the master’s degree in microelectronics system design from the University of Southampton, U.K., in 1999, and the Ph.D. degree in adaptive hardware from The University of Edinburgh, U.K., in 2007. He is currently an Associate Professor at the Department of Electrical and Electronic Engineering, Faculty of Engineering, UPM. He is currently working on a variety of research projects such as “High Performance Hardware Implementation of a Multi-Objective Genetic Algorithm” which is funded through the Research University Grant Scheme (RUGS) of Universiti Putra Malaysia (UPM), as well as, “Crest Factor Reduction and Digital Pre-distortion Implementation in Orthogonal Frequency Division Multiplexing (OFDM) Systems, funded by the Ministry of Science, Technology and Innovation (MOSTI). His research interests include evolutionary algorithms, digital signal processing, digital communications, and low power VLSI designs.

Dr. Farah Hani Nordin
Institute of Power Engineering (IPE),
College of Engineering, Universiti Tenaga Nasional (UNITEN),
43000 Kajang, Selangor, Malaysia.
E-mail: farah@uniten.edu.my
Google Scholar:
https://scholar.google.co.jp/citations?user=Z4ZYBVsAAAAJ&hl=en
IEEE:
https://ieeexplore.ieee.org/author/37530738500
Biography:
Farah Hani Nordin received the bachelor's (Hons.) degree in electrical and electronic engineering from Universiti Tenaga Nasional (UNITEN), Selangor, Malaysia, in 2000, the M.Sc. degree in control, communication and digital signal processing from the University of Strathclyde, Glasgow, U.K., in 2002, and the Ph.D. degree in engineering from UNITEN in 2010.,She is an Associate Professor and currently holding the position of Deputy Dean (student affairs and external relations) with the College of Engineering, UNITEN, where she has previously served as the Head of the Department of Electronics and Communication Engineering from 2014 until 2018.,Dr. Nordin is a member of The Institution of Engineers Malaysia and also registered as a Professional Engineer under the Board of Engineers Malaysia.





A Special Issue on, “Machine learning and optimization in optoelectronics and optical communications”

Machine learning (ML) has changed the ways in which data are handled throughout the spectrum of sciences and engineering. ML is rapidly finding its place in the field of optical communications, for example, in end-toend learning of complete fiber-optic communication systems, short reach data-center networks etc. Today, computational optimization is seen as the only viable approach to optimizing any application-specific cost function involving several design parameters. This is especially true for the application areas such as photonic device design which encompasses complex modelling approaches involving several performance metrics, each presenting intricate trade-offs with respect to each of the design variable. Optimization of photonic devices based on these computational methods is therefore highly desirable and sought-after application area in this regard.

This special issue aims at collecting and disseminating unpublished original work in the form of research articles, literature and systematic reviews, and short reports. The special issue focuses on the applications the application of machine learning and computational optimization approaches in: (i) modeling and design optimization of various photonic and optoelectronic devices, circuits and systems, and (ii) identification, classification and estimation of signals in communication systems. The manuscripts submitted in this special issue will be subject to peer-review as per the policy of the JNO/publisher. Please ensure that the manuscript being submitted to this special issue is neither previously published nor it is being currently under review by another journal.

Manuscripts featuring Original Research, Literature and Systematic Review and Short reports/Letters are invited relevant (but not limited) to the following topics:
  • Machine learning for design (or inverse design) and optimization of photonic devices
  • Machine learning for end-to-end learning of complete fiber-optic communication systems
  • Machine learning for short reach data-center networks
  • Machine learning for nonlinearity compensation (NLC) in long-haul high-speed fiber-optic communication systems
  • Machine learning-aided proactive fault detection (PFD) and root cause analysis in optical networks
  • Machine learning for cross-layer network optimizations and automated network operations in softwaredefined optical networks (SDONs)
  • Machine learning for optical fiber channel estimation (also referred to as optical performance monitoring (OPM))
Lead Guest Editors
Abdurrahman Javid Shaikh, PhD.
Department of Electrical Engineering,
NED University of Engineering & Technology, Karachi – 75270, Pakistan.
E-mail: arjs@neduet.edu.pk

Guest Editors
Dr. Abdul Ghani Abro.
Department of Electrical Engineering,
NED University of Engineering & Technology, Karachi – 75270, Pakistan.
E-mail: ghani@neduet.edu.pk

Dr. Mirza Muhammad Ali Baig
Department of Electrical Engineering,
NED University of Engineering & Technology, Karachi – 75270, Pakistan.
E-mail: mohdali@neduet.edu.pk

About Guest Editor
Dr. Abdurrahman Javid Shaikh received his PhD degree in Photonics from Universiti Sains Malaysia in 2019. He is an established academic and researcher with 18 years of experience working at national and international universities. He is a reviewer with national grant scheme, reputable publishers and established conferences. He received the international SPIE Optics & Photonics Scholarship in 2014. He is currently working on designing and optimization of optoelectronic and passive photonic devices for short reach optical interconnects and SoC applications. His research interests include next-generation hyper-scale datacenter and exa-scale computing technologies, and renewable energy (thermoelectricity) technologies.

Dr. Mirza Muhammad Ali Baig, completed his PhD degree In Electrical Engineering, from NED University of Engineering and Technology Karachi in 2017. Currently he is assistant professor in the same University. He specialized in developing signal processing techniques in improving speech recognition systems accuracies. His current research areas encircle applying the state-of-art Machine learning techniques on speech technology and Electrical power systems for development of their smart applications.

Dr. Abdul Ghani Abro received his PhD degree on computational intelligence algorithms from University of Science Malaysia in 2013. He has worked as Assistant Professor at King Saud University, Kingdom of Saudi Arabia from 2014 to 2019. Now, he is working as Assistant Professor at NED University of Engineering and Technology Karachi, Sindh Pakistan. His current research interest focuses on development of metaheuristic optimization algorithms and applications in various electrical engineering field. He has published several high-quality research and review articles in world class journals.

Manuscript Submission Information
Manuscripts must be prepared according to Journal’s guidelines, available at:
http://aspbs.com/jno/JNO%20Template%20(Harvard%20Reference%20Style%20-%20High%20Quality%20of%20Figures)r2.pdf
All papers submitted to this issue will be subject to a strict peer review process to ensure high quality articles. Please make sure in the cover letter that the submitted paper has not been published previously and is not currently submitted for review to any other journal and will not be submitted elsewhere before a decision is made by this journal. A manuscript processing fees of US$ 780 per article will be applied to all accepted articles. Manuscript can be submitted directly to the guest editor by email or through the following link: https://mc04.manuscriptcentral.com/jno-aspbs

KEY DATES
Manuscript due:
June 25, 2023
Authors’ notification:
6 weeks after submission
Publication date:
September. 2023



A Special Issue on, “Advanced Energy Nanomaterials and based Devices”

Advanced Energy are dedicated to exploring various aspects of energy-related research which centralized in nanomaterials, nanoscience and nanotechnology including but not limited to energy consumption, storage, conservation, conversion and clean energy etc. Many kinds low-dimensional nanomaterials with high specific surface area have been developed to achieve energy harvesting, conversion, and storage; and some of them were used for fabricating high performance devices, etc. It would be very meaningful to collect the relevant research in one issue. This special issue aims to focus on the developing, synthesis, modification and theoretical study of Advanced Energy Nanomaterials and based Devices.

We invite submission of Review Articles, Original Research Articles and Communications/Letters which covers (but not limited to) the following topics:
  • Newly developed nanomaterials for energy harvesting, conversion, and storage.
  • Novel synthetic methods or modification ways for excellent nanomaterials for energy harvesting, conversion, and storage.
  • Important theoretical study of nanomaterials for energy harvesting, conversion, and storage.
  • Novel techniques for analyzing or probing the performance of nanomaterials for energy harvesting, conversion, and storage.
Guest Editors
Prof. Liang Chu
Electronics and Information College,
Hangzhou Dianzi University, Hangzhou 310018, P.R. China
E-mail: chuliang1012@126.com

About Guest Editor
Prof. Liang Chu received his PhD degree on condensed matter physics from Huazhong University of Science and Technology in 2014. Now he is a full professor at Hangzhou Dianzi University. His current research interest focuses on nanoelectronics and advanced optoelectronics, mainly on perovskite solar cells, optoelectronic memristors and various other electronic devices and systems. Prof. Liang published several high-quality research and review articles in world class journals.

Manuscript Submission Information
Manuscripts must be prepared according to Journal’s guidelines, available at: http://aspbs.com/jno/JNO%20Template%20(Harvard%20Reference%20Style%20-%20High%20Quality%20of%20Figures)r2.pdf All papers submitted to this issue will be subject to a strict peer review process to ensure high quality articles. Please make sure in the cover letter that the submitted paper has not been published previously and is not currently submitted for review to any other journal and will not be submitted elsewhere before a decision is made by this journal. A manuscript processing fees of US$ 780 per article will be applied to all accepted articles. Manuscript can be submitted directly to the guest editor by email or through the following link: https://mc04.manuscriptcentral.com/jno-aspbs

KEY TIMETABLE DATES
Manuscript due:
June 25, 2022
Authors’ notification:
August 05, 2022
Publication date:
August/September. 2022



A Special Issue on, “Recent Trends and Emerging Technologies for Nanophotonic Communication Systems”

In recent years, there has been lots of research undergoing nanophotonics in optical physics and communication engineering. This indicates the rising popularity of telecommunication research using nanotechnology. In general, nanophotonics deals with the study of the behaviour of light at a nanometer scale and also the interaction of the nanometer-scale objects with light. Nanophotonic communication deals with the interaction of light with nanostructures of intermediate size between molecular and microscopic structures. Due to the smaller size of the structure, the properties such as optical, mechanical, structural, and thermal are greatly interdependent on each other. This paves the way for many greater developments, including optical parametric oscillator (OPO) technology. Also, many researchers strongly believe that this technology will undergo a massive transformation in the next few years, and it will create a breakthrough advancement across the information and communication sector. In future applications, these technologies will integrate on a chip to augment them and enable the communication networks to interact with the other signals, which includes the signal processing equipment, computers, and communication systems.

Even Though nanophotonics possesses several applications to the communication systems, some nanophotonics areas have acquired more attention than others. Many researchers strongly believe that the concept of photonics and nanotechnology will strongly converge to provide innovations in communication. Among that, plasmonics and quantum optics are the two emerging areas that have acquired an increased interest in recent times. Further, the techniques such as molecular factory processes and nanofabrication assists in the development of products and materials at the nanoscale. One such example is the quantum dot. This will result in a high-clarity display and very pure colours, possibly bringing in drastic advancements to quantum optics and quantum information processing and communication. Also, there is no doubt that more advanced research in this stream will essentially put the entire optical communication network in a considerably smaller chip. Further bringing in the emerging technologies for nanophotonic communication will assist in better information processing with several devices.

This special issue entitled “Recent Trends and Emerging Technologies for Nanophotonic Communication” offers a platform for researchers and practitioners to present novel and innovative contributions relating to nanophotonic communication systems for emerging telecommunication networks. Research works focusing on novel and cutting-edge technologies for nanophotonic communications are most invited.

List of Topics (include, but not limited to the following):

  • Future directions and promising research on nanophotonic communication systems.
  • Emerging technologies for advancing nanophotonic communications.
  • New perspectives and trends in technology for nanophotonics.
  • Quantum-inspired nanophotonic optical communications for future era.
  • Nanofabrication for optical communication.
  • Novel techniques for enhancing the nanophotonic communication.
  • Advances in nanophotonics and optical nanomaterials.
  • Trends in nano optical wireless communication systems.
  • Advances in photonic integrated circuits for wireless communication.
  • Trends in fiber-optic sensors for nanophotonic communication.
Guest Editor Details
Dr. Ahmed A. Abd El-Latif
Associate Professor,
Department of Mathematics and Computer Science, Faculty of Science, Menoufia University,
Shebin El-Koom, Egypt.
Official Email ID: alatif@science.menofia.edu.eg
Google Scholar Link: https://scholar.google.com/citations?hl=en&user=BrYgReMAAAAJ

Dr. Edmond Shu-lim Ho
Senior Lecturer,
Department of Computer and Information Sciences, Northumbria University,
Newcastle upon Tyne, United Kingdom.
Official Email ID: e.ho@northumbria.ac.uk
Google Scholar Link: https://scholar.google.com/citations?hl=en&user=Py1-xgMAAAAJ

Dr. Jialiang Peng
Associate Professor,
School of Data Science and Technology, Heilongjiang University, Harbin, China.
Official Email ID: jialiangpeng@hlju.edu.cn
Google Scholar Link: https://scholar.google.com/citations?hl=en&user=ktLmSB0AAAAJ

Manuscript Submission Information
Manuscripts must be prepared according to Journal’s guidelines, available at: http://aspbs.com/jno/JNO%20Template%20(Harvard%20Reference%20Style%20-%20High%20Quality%20of%20Figures)r2.pdf All papers submitted to this issue will be subject to a strict peer review process to ensure high quality articles. Please make sure in the cover letter that the submitted paper has not been published previously and is not currently submitted for review to any other journal and will not be submitted elsewhere before a decision is made by this journal. A manuscript processing fees of US$ 780 per article will be applied to all accepted articles. Manuscript can be submitted directly to the guest editor by email or through the following link: https://mc04.manuscriptcentral.com/jno-aspbs

KEY TIMETABLE DATES
Manuscript due: May 01, 2022
Authors’ notification: June 01, 2022
Publication date: July/August. 2022




A Special Issue on, “Hybrid Nanomaterials for Advanced Applications”

Recently, nanomaterials receive great interest from scientist due to their diverse features in catalysis applications. Different synthesis schemes have been adopted to synthesis such sort of hybrid materials such as Co-Precipitation, Sol gel, hydrothermal etc. Hybrid nanomaterials adopted different shapes such as nanocages, nanofibers, nanoflakes, nanoflowers, nanotubes etc. which made them more promising towards heterogenous catalysis. Such sort of hybrid materials has been widely used as catalysis in biomedical (Drug delivery, Gene Delivery, Tissue engineering, wound Dressing), Energy (Supercapacitors, Single atom catalysis, fuel cell, DSC), as well as environmental remediation (Dye degradation, wastewater treatment, water splitting, HER, ORR, Electrochemical sensor).

We invite submission of Review Articles, Original Research Articles and Communications/Letters which covers (but not limited to) the following topics:
  • Nanomaterials for heterogenous catalysis.
  • Nanomaterials for wastewater treatment.
  • Photocatalysis.
  • Water splitting.
  • Energy applications.
  • HER, ORR.
  • Electrochemical sensor.
    And so on….
Guest Editors
Dr. Awais Ahmad
Departamento de Quimica Organica,
Universidad de Cordoba, Edificio Marie Curie (C-3),
Ctra Nnal IV-A, Km 396, E14014 Cordoba, Spain
E-mail: awaisahmed@gcuf.edu.pk

Dr. Alagar Karthick
Associate Professor
Renewable energy lab
Department of Electrical and Electronics Engineering,
KPR Institute of Engineering and Technology, Coimbatore, 641 407,TamilNadu, India
Email: karthick.power@gmail.com

KEY TIMETABLE DATES
Manuscript due: April 25, 2022
Authors’ notification: June 05, 2022
Publication date: June/July, 2022


A Special Issue on “Millimeter Wave Signal Photonic Generation and Optical Signal Processing”

With the rapid development of Internet, cloud computing and virtual reality, the demand for data traffic shows a sharp growth trend. Large capacity, high transmission rate optical fiber communication system and flexible access wireless communication have become the mainstream of development. Millimeter wave over fiber has been considered a promising technique to wireless access networks since it can meet the requirement of high signal bandwidth and overcome the spectral congestion at low frequency. Millimeter wave signal photonic generation can effectively overcome the limitation of traditional electronic bottleneck.

In addition, to improve the channel capacity and transmission rate, high-order modulation format, probability shaping technology, machine learning, neural network, partial division multiplexing technology, coherent detection technology and powerful digital signal processing technology are widely used in optical fiber communication system, which greatly promotes the development of high-speed optical fiber communication system. This special issue aims to focus on the theoretical study of Millimeter Wave Signal Photonic Generation, Signal Processing in Optical Fiber Communication System.

We invite submission of Review Articles, Original Research Articles and Communications/Letters which covers (but not limited to) the following topics:
  • Newly photonic or optical scheme for millimeter wave signal or vector millimeter wave signal generation.
  • Novel signal coding, the algorithm of linear and nonlinear damage compensation, artificial intelligence algorithm for millimeter wave over fiber system.
  • Newly signal processing algorithm is proposed to compensate the damage of optical fiber communication system.
  • Novel Research on optical logic gate based on external modulator and optical communication security at physical layer.
  • Probability shaping, new modulation format, artificial intelligence for optical fiber communication system.
Manuscript Submission
Manuscripts must be prepared according to Journal’s guidelines, available at: http://aspbs.com/jno/JNO%20Template%20(Harvard%20Reference%20Style%20-%20High%20Quality%20of%20Figures)r2.pdf All papers submitted to this issue will be subject to a strict peer review process to ensure high quality articles. Please make sure in the cover letter that the submitted paper has not been published previously and is not currently submitted for review to any other journal and will not be submitted elsewhere before a decision is made by this journal. A manuscript processing fees of US$ 780 per article will be applied to all accepted articles. Manuscript can be submitted directly to the guest editor by email or through the following link: https://mc04.manuscriptcentral.com/jno-aspbs

KEY TIMETABLE DATES
Manuscript due: July 19, 2022
Authors’ notification: August 16, 2022
Publication date: September/October. 2022

Guest Editor
Dr. Wang Dong-Fei
School of Information Engineering,
Beijing Institute of Graphic Communication, Beijing, 102600 P.R. China
E-mail: wdfchina@126.com


A Special Issue on “Advanced Materials for Energy Storage and Conversion”

Supercapacitors, batteries and fuel cells are widely used in electrical vehicles and portable devices. Various materials, such as biomass carbon, graphene, transition metal derivatives have been explored for high performance energy storage and conversion applications. Materials structure design and energy storage system choice are key factors for these devices, for example, titanium and niobium-based oxides for high-rate Li-ion battery, nickel-rich or manganese-rich ternary system, three-dimensional porous electrode structure for metal-air battery, metal-ion intercalation hybrid capacitor, quinone-based organic active materials for flow battery etc. In addition, in-situ characterization techniques and theoretical modeling also provide new insights into the electrochemical energy storage mechanisms, which has clarified the basic principles of energy conversion processes. This special issue aims to focus on the developing, synthesis, modification and theoretical study of Advanced Materials for Energy Storage and Conversion.

We invite submission of Review Articles, Original Research Articles and Communications/Letters which covers (but not limited to) the following topics:
  • Newly synthetic methods or modification ways developed advanced nanomaterials for energy harvesting, conversion, and storage.
  • Important theoretical study of advanced nanomaterials for energy harvesting, conversion, and storage.
  • Novel techniques for analyzing or probing the performance of advanced nanomaterials for energy harvesting, conversion, and storage.
  • Novel nanomaterials for other advanced technology and application.
Manuscript Submission
Manuscripts must be prepared according to Journal’s guidelines, available at: http://aspbs.com/jno/JNO%20Template%20(Harvard%20Reference%20Style%20-%20High%20Quality%20of%20Figures)r2.pdf All papers submitted to this issue will be subject to a strict peer review process to ensure high quality articles. Please make sure in the cover letter that the submitted paper has not been published previously and is not currently submitted for review to any other journal and will not be submitted elsewhere before a decision is made by this journal. A manuscript processing fees of US$ 780 per article will be applied to all accepted articles. Manuscript can be submitted directly to the guest editor by email or through the following link: https://mc04.manuscriptcentral.com/jno-aspbs

KEY TIMETABLE DATES
Manuscript due: October 25, 2022
Authors’ notification: November 05, 2022
Publication date: December. 2022

Guest Editor
Associate Prof. Wenyao Li
School of Materials Engineering,
Shanghai University of Engineering Science, Shanghai 201620, P.R. China
E-mail: liwenyao@sues.edu.cn


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