2022 International Conference on Physical Chemistry and Metallurgy (ICPCM 2022)
☑Location: Dali, China

☑Conference Website: http://www.pcmconf.org/

☑Date: May 13-15, 2022.
☑E-mail: conference_contact@163.com

▶▶▶Submission Link◀◀◀

▶▶▶Registration Link◀◀◀

The 2022 International Conference on Physical Chemistry and Metallurgy (ICPCM 2022) will be held in Dali, China from May 13-15 ,2022. 

The conference will invite experts and scholars from domestic and international universities and research institutions, business people and other related personnel to share the latest research results and discuss future academic topics with scholars and teachers and students in the field through keynote speeches and oral presentations.

▶Publication◀

All accepted full papers will be published by Journal of Physics: Conference Series (ISSN: 1742-6588), and then submit to EI Compendex, Scopus

▶Keynote Speaker◀

Prof. Longjiu Cheng

Anhui University ,China

Research Area:

1) Electronic Shell theory of Superatoms-- Super valence bond model;

2) Structural predicton of Clusters (B clusters, Gold clusters, ...) and nanoalloys;

3) Chemical bonding: muticenter bonding, aurophilicity, aromaticity, secondary bonding...; 

4) GPU computating; 

5) Development of computating package: DFT-based global optimization algorithm. 

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▶Title：Super valence bond theory◀

Abstract: We proposed a new concept for bonding between superatoms—super valence bond (SVB), of which superatoms can share both valence pairs and nuclei for shell closure thus forming delocalized super bonding.] Using Li clusters as a test case, we theoretically find that metal clusters can mimic the behavior of simple molecules in electronic shells. It is found that Li14, Li10, and Li8 clusters are analogues of F2, N2, and CH4 molecules, respectively, in molecular orbital (MO) diagrams and bonding patterns. This new concept shows new insights in understanding the stability of clusters and designing the cluster-assembling materials.

Prof. Liyu Chen

South China University of Technology, China

Research Area:

MOF-based catalysts

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▶Title: The design and synthesis of metal–organic framework (MOF)-based metal nanomaterials, and their applications in industrial catalysis◀

Abstract: Our group focus on the design and synthesis of metal–organic framework (MOF)-based metal nanomaterials, and their applications in industrial catalysis. Aiming at the bottleneck problems of common industrial hydrogenation and oxidation catalysts, including easy agglomeration and poor activity of metal active centers, harsh reaction conditions and poor selectivity, we proposed new concepts of synergistic nanopore confinement and pore surface stabilization effect, synergistic pore decoration and diffusion enhancement effect, and controlled deligandation to improve the efficiency of MOF-based metal catalysts, leading to the construction of MOF-based metal catalysts with high stability, high activity and high selectivity to further promote the industrial applications of MOF-based metal catalytic materials.

Dr. Ghulam Yasin

Shenzhen University, China

Research Area:

Nanoscale Functional Materials for Electrochemical Energy Storage  and Conversion Devices/Technologies 

Advanced Carbon-Based Anodes for Next-Generation Batteries  

Nanoarchitectured Materials for Energy Storage and Conversion  Applications

Construction of Metal-Organic Frameworks (MOFs) and CovalentOrganic Frameworks (COFs) Based Nanomaterials

Nanocomposite Materials for Multifunctional Applications 

Nanoscience and Nanotechnology-Based Approaches for Superior  Mechanical Properties and Corrosion Performance 

Basic Simulations and DFT of Electrochemical Energy Conversion  and Storage

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▶Title: Nanoscale Advanced Functional Materials for Electrochemical Energy Storage and Conversion Devices/Technologies◀

Abstract: Currently, green energy conversion and storage technologies based on sustainable energy sources, are attracting much consideration owing to the continuously rising energy demand for sustainable social and economic development. For this purpose, the construction of new materials with excellent practical permanency and extraordinary activity for electrocatalysis is deemed very competitive and active avenues in energy applications. With the rapidly expanding research areas and emerging uses of nanoscience and nanotechnology, advanced nanomaterials with several unique morphologies are proposed to fabricate promising electrocatalysts and/or energy storage materials. The adaptability of nanostructures and nanomaterials therefore could originate the proficient power sources for various technologies, such as portable, foldable, flexible electronic appliances, long-drive automobiles, and grid-scale energy storage. In this talk, we will briefly discuss the design and development of nanostructures and nanomaterials for high-performance next-generation electrochemical energy conversion and storage devices.

▶Call For Paper◀

Physical and chemical

The electrochemical

Magnetic chemical

Force chemical

Functional materials

Magnetic materials

Optical materials

The electrical material

Acoustic materials

Surface and interface chemistry of nanomaterials

Inorganic/polymer nanocomposites

Heterogeneous catalysis and catalytic materials

Metallurgical Engineering

Metal Material Engineering

Green Metallurgical Process Theory and Technology

Metallurgical Theory and Technology

Metal Corrosion Control Engineering Technology

Welding Technology and Engineering

Powder Metallurgy

Metallurgical Multi-Transport and Reaction Engineering

New Energy Materials and Devices

Metallurgical Resources and Environmental Engineering

Lean and Agile Manufacturing

Mechanical Metallurgy, Manufacturing and Weaving

▶Submission Methods◀

1.The submitted papers must not be under consideration elsewhere.

2.Please send the full paper(word+pdf) to SUBMISSION SYSTEM

3.Please submit the full paper, if presentation and publication are both needed.

4.Please submit the abstract only, if you just want to make presentations.

5.Templates Downlow: Templates

Note: 

1)Both Abstract and Full Paper are welcomed. The author can make an oral presentation after the Abstract is accepted and the payment is finished.

2)All submitted articles should report original, previously unpublished research results, experimental or theoretical. Articles submitted to the conference should meet these criteria and must not be under consideration for publication elsewhere. We firmly believe that ethical conduct is the most essential virtual of any academic. Hence any act of plagiarism is a totally unacceptable academic misconduct and cannot be tolerated.

▶Program & Registration◀

① Program

② Registration

Conference Secretary: Yedda Huang

+86-13922159104 (Wechat)

 conference_contact@163.com