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Line 1: {{Short description\|Chemistry simulation software}} {{Infobox software \| name = MesoBioNano Explorer Line 4 ⟶ 5: \| released = {{Start date and age\|2012}} \| latest release version = 3.0 \| latest release date = {{Start date and age\|2017\|03\|31\|}} ~~\| status = Active~~ \| programming language = [[C++]] \| operating system = [[Cross-platform]]: [[Microsoft Windows\|Windows]], [[Linux]], [[macOS]] \| platform = [[x86]], [[x86-64]] \| size = \| language = English \| genre = [[Molecular dynamics]], [[kinetic Monte Carlo]] simulations Line 14 ⟶ 15: \| website = {{URL\|www.mbnexplorer.com}} }} '''MBN Explorer''' ('''MesoBioNano Explorer''') is a software package for [[molecular dynamics]] simulations, [[Energy minimization\|structure optimization]] and [[kinetic Monte Carlo]] simulations. It is designed for [[Multiscale modeling\|multiscale computational analysis]] of structure and dynamics of [[Cluster (physics)\|atomic clusters]] and [[nanoparticle]]s, [[biomolecule]]s and nanosystems, nanostructured materials, different states of matter and various interfaces.<ref>{{cite web\|title=About MBN Explorer\|url=http://www.mbnresearch.com/get-mbn-explorer-software\|publisher=mbnresearch.com\|~~accessdate~~access-date=31 August 2017}}</ref> The software has been developed by MBN Research Center. == History == MBN Explorer inherited the experience obtained on the development of the software package Cluster Searcher. It started around 2000 as a classical molecular dynamics code for simulating many-body systems interacting via the Morse and the Lennard-Jones potentials.<ref>{{cite web\|title=MBN Explorer: A decade development now available for the community\|url=http://www.vinf.eu/news/mbn-explorer-decade-development-now-available-community\|publisher=Virtual Institute of Nano Films\|~~accessdate~~access-date=31 August 2017}}</ref> A variety of interatomic potentials and the possibility to combine a group of atoms into rigid blocks were introduced in 2005–2007. The first version of MBN Explorer was released in 2012 as a multipurpose computer code allowing to model different molecular systems of varied level of complexity.<ref>{{cite journal \|~~authors~~author=I.A. Solov'yov, \|author2=A.V. Yakubovich, \|author3=P.V. Nikolaev, \|author4=I. Volkovets, \|author5=A.V. Solov'yov \|title= MesoBioNano Explorer - A universal program for multiscale computer simulations of complex molecular structure and dynamics \|journal= J. Comput. Chem. \|volume= 33 \|issue= 30 \|pages= 2412–2439 \|year= 2012 \|pmid= 22965786 \|doi= 10.1002/jcc.23086\|s2cid= 22553279 }}</ref> == Features == MBN Explorer allows for the multiscale description of molecular systems by means of kinetic Monte Carlo approach<ref>{{cite journal \|~~authors~~author=M. Panshenskov, \|author2=I.A. Solov'yov, \|author3=A.V. Solov'yov \|title= Efficient 3D kinetic monte carlo method for modeling of molecular structure and dynamics \|journal= J. Comput. Chem. \|volume= 35 \|issue= 17 \|pages= 1317–1329 \|year= 2014 \|pmid= 24752427 \|doi= 10.1002/jcc.23613\|s2cid= 8788528 }}</ref> and the irradiation-driven molecular dynamics.<ref name="IDMD_EPJD_paper">{{cite journal \|~~authors~~author=G.B. Sushko, \|author2=I.A. Solov'yov, \|author3=A.V. Solov'yov \|title= Molecular dynamics for irradiation driven chemistry: application to the FEBID process \|journal= Eur. Phys. J. D \|volume= 70 \|issue= 10 \|~~pages~~page= 217 \|year= 2016 \|doi=10.1140/epjd/e2016-70283-5\|bibcode= 2016EPJD...70..217S \|s2cid= 54844470 \|url= https://portal.findresearcher.sdu.dk/da/publications/52cb3c8a-5c82-4686-be64-b541107227b9 }}</ref> By means of the Monte Carlo approach, the software allows to simulate diffusion-drive processes involving molecular systems on much larger time scales that can be reached in conventional molecular dynamics simulations.<ref name="MBN_Springer_2017">{{cite book \|title= Multiscale Modeling of Complex Molecular Structure and Dynamics with MBN Explorer\|author1=I.A. Solov'yov \|author2=A.V. Korol \|author3=A.V. Solov'yov \|year= 2017 \|publisher=Springer International Publishing \|isbn= 978-3-319-56085-4 }}</ref> The software allows to combine different types of [[interatomic potential]]s to specify more than one interaction to a particular atom or a group of atoms. MBN Explorer supports several standard atomic trajectory formats, such as XYZ (text format), DCD<ref>{{cite web\|title=DCD Trajectory I/O\|url=http://www.mdanalysis.org/mdanalysis/documentation_pages/coordinates/DCD.html}}</ref> (binary format) and DCD+XYZ (hybrid format). It also supports the [[Protein Data Bank (file format)\|Protein Data Bank]]<ref>{{cite web\|title=Protein Data Bank\|url=https://www.rcsb.org/pdb/home/home.do}}</ref> (pdb) file format for describing the three-dimensional structures of biomolecules. Line 26 ⟶ 27: Advanced features of the program include: * flexible [[Coarse-grained modeling\|coarse graining]] and the possibility to simulate [[Euler's equations (rigid body dynamics)\|dynamics of rigid bodies]], * the possibility to perform relativistic molecular dynamics simulations<ref>{{cite journal \|~~authors~~author=G.B. Sushko, \|author2=V.G. Bezchastnov, \|author3=I.A. Solov'yov, \|author4=A.V. Korol, \|author5=W. Greiner, \|author6=A.V. Solov'yov \|title= Simulation of ultra-relativistic electrons and positrons channeling in crystals with MBN Explorer \|journal= J. Comput. Phys. \|volume= 252 \|pages= 404–418 \|year= 2013 \|doi=10.1016/j.jcp.2013.06.028\|arxiv=1307.6771 \|bibcode= 2013JCoPh.252..404S \|s2cid= 2157486 }}</ref> of [[Ultrarelativistic limit\|ultra-relativistic]] particles in crystalline media, * simulation of irradiation-induced chemical transformations by means of irradiation-driven molecular dynamics.<ref name="IDMD_EPJD_paper" /> == MBN Studio == MBN Explorer is complemented with MBN Studio<ref name="MBN_Springer_2017" /><ref>{{cite web\|title=About MBN Studio\|url=http://www.mbnresearch.com/mbn-studio\|publisher=mbnresearch.com\|~~accessdate~~access-date=31 August 2017}}</ref> - a multi-task program for molecular modeling and design, as well as for visualization and analysis of results of the simulations performed with MBN Explorer. The built-in molecular modeler can be used to construct isolated and solvated biomolecules, condensed molecular materials, carbon nanotubes and graphene sheets, nanoparticles and crystalline samples. == Projects and collaborations ==