In: Proceedings of the Working Conference on Advanced Visual Interfaces, pp.
Clifton Forlines, Ryan Lilien: Adapting a single-user, single-display molecular visualization application for use in a multi-user, multi-display environment. MSc Thesis, University of Twente, Enschede, The Netherlands (2009). Jeroen Logtenberg: Multi-user interaction with molecular visualizations on a multi-touch table. S Rzepa, "Using Semantically-enabled Components for Social-Web based Scientific Collaborations", in "Enhancing Learning with Online Resources, Social Networking, and Digital Libraries", Editor(s): Robert E. Gutow, Easy Jmol Web Pages using the Jmol Export to Web Function. Hanson: Jmol – a paradigm shift in crystallographic visualization. In Proceedings of World Conference on E-Learning in Corporate, Government, Healthcare, and Higher Education 2010, pp. Kessler: Molecular visualization in STEM education: Leveraging Jmol in an integrated assessment platform. Rzepa, "The past, present and future of scientific discourse", J. In Symposium on the Benefits of eLearning Technologies. Tim Wallace: Using Java applets to enhance online teaching and assessment in Blackboard. doi:10.1021/ed300393s Article with complimentary full-text access. Hanson, and Przemyslaw Maslak: Interactive web-based pointillist visualization of hydrogenic orbitals using Jmol. Rzepa, "Changing ways of sharing research in Chemistry", in "The future of scholarly communication: all change", M. Rzepa, "Chemical datuments as scientific enablers", J. doi:10.1002/ijch.201300024Ībstract and article Also featured in the cover picture, Israel Journal of Chemistry 53 (3-4) 2013. Sussman: JSmol and the next-generation web-based representation of 3D molecular structure as applied to Proteopedia. Hanson, Jaime Prilusky, Zhou Renjian, Takanori Nakane and Joel L. Hanson: Jmol SMILES and Jmol SMARTS: specifications and applications. Journal of Cheminformatics 8, 66 (2016) doi:10.1186/s1332-z Open access article. Bara: Programmatic conversion of crystal structures into 3D printable files using Jmol. Williams, Valery Tkachenko, Karen Karapetyan, Alexey Pshenichnov, Robert M. Hanson and Xiang-Jun Lu: DSSR-enhanced visualization of nucleic acid structures in Jmol. It is being used as a part of a course material in an undergraduate molecular modeling and visualizaton course for chemistry teachers students. It includes theoretical background suitable for chemistry teachers, chemistry educational researchers and chemistry teachers students, and about 20 exercises that can be used in e.g. Details at: bit.ly/immiceĪ small introductional book for molecular modeling in chemistry education, using JSmol. Johannes Pernaa, Maija Aksela and Shenelle Pearl Ghulam: Introduction to Molecular Modeling in Chemistry Education. The user gradually acquires the skills to use Jmol while proceeding to learn the basics of protein structure in a manner that parallels the way they will be learning the material in an introductory biochemistry course. #Jmol workbook exercise 11 how to
Free download.Ī manual containing self-guided exercises that enable the user to learn how to download structures from the Protein Data Bank, display and manipulate them using the Jmol application. Cohlberg: Exploring Proteins and Nucleic Acids with Jmol.
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