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The Jones Lab at Rice University takes a systems approach to nanoparticle assembly - in addition to understanding assembled materials as a function of their constituent parts (e.g. nanoparticles, ligands, atoms), we also consider the influence of collective properties and higher-order effects (e.g. dimensionality, curvature, particle interactions). These systems-level phenomena allow for the creation of new forms of inorganic matter that are structurally reconfigurable, experience positive and negative feedback, and are constantly evolving over time in response to external stimuli. This holistic and hierarchical approach requires the application of advanced chemical methods for controlling nanoparticle size, shape, composition, surface functionality, interaction potential, and geometric environment while simultaneously addressing fundamental questions about the symmetry, topology, and out-of-equilibrium dynamics of assembled nanometer-scale systems. Through these insights we design adaptive materials with unique optical and mechanical properties with potential impact in the fields of metamaterials, energy storage, and biology.
The Jones Lab at Rice University takes a systems approach to nanoparticle assembly - in addition to understanding assembled materials as a function of their constituent parts (e.g. nanoparticles, ligands, atoms), we also consider the influence of collective properties and higher-order effects (e.g. dimensionality, curvature, particle interactions). These systems-level phenomena allow for the creation of new forms of inorganic matter that are structurally reconfigurable, experience positive and negative feedback, and are constantly evolving over time in response to external stimuli. This holistic and hierarchical approach requires the application of advanced chemical methods for controlling nanoparticle size, shape, composition, surface functionality, interaction potential, and geometric environment while simultaneously addressing fundamental questions about the symmetry, topology, and out-of-equilibrium dynamics of assembled nanometer-scale systems. Through these insights we design adaptive materials with unique optical and mechanical properties with potential impact in the fields of metamaterials, energy storage, and biology.
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Yuxuan Ding,Simon S Pedersen, Haofan Wang, Baorui Xiang, Yixian Wang, Zhi Yang,Yuxiang Gao, Emilia Morosan,Matthew R Jones, Han Xiao,Zachary T Ball
Angewandte Chemie (International ed. in English)pp.e202405344-e202405344, (2024)
Sarah M. Rehn,Theodor M. Gerrard-Anderson,Yu Chen,Peng Wang, Timothy Robertson, Thomas P. Senftle,Matthew R. Jones
ACS NANOno. 7 (2023): 6698-6707
Microscopy and microanalysis : the official journal of Microscopy Society of America, Microbeam Analysis Society, Microscopical Society of Canadano. Supplement_1 (2023): 254-255
亮治 高橋,Nia Pollard,Ravithree D. Senanayake,Zhi Yang, Minjung Kim, Arzeena S. Ali,Minh Tam Hoang,Nan Yao,Yimo Han,Rigoberto Hernandez,Andre Z. Clayborne,Matthew R. Jones
Nature communicationsno. 1 (2023): 4408-9
Journal of the American Chemical Societyno. 50 (2023): 27702-27707
Liang Qiao,Nia Pollard,Ravithree Senanayake,Zhi Yang, Minjung Kim,Arzeena Ali,Minh Tam Hoang,Nan Yao,Yimo Han,Rigoberto Hernandez, Andre Clayborne,Matthew Jones
crossref(2022)
Siraj Sidhik,Yafei Wang,Michael De Siena,Reza Asadpour,Andrew J. Torma,Tanguy Terlier,Kevin Ho, Wenbin Li,Anand B. Puthirath, Xinting Shuai,Ayush Agrawal,Boubacar Traore,
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