Artificial ‘spin ice’in a geometrically frustrated lattice of nanoscale ferromagnetic islands RF Wang, C Nisoli, RS Freitas, J Li, W McConville, BJ Cooley, MS Lund, ... Nature 439 (7074), 303-306, 2006 | 1050 | 2006 |
Highly Scalable, Atomically Thin WSe2 Grown via Metal–Organic Chemical Vapor Deposition SM Eichfeld, L Hossain, YC Lin, AF Piasecki, B Kupp, AG Birdwell, ... ACS nano 9 (2), 2080-2087, 2015 | 458 | 2015 |
Direct synthesis of van der Waals solids YC Lin, N Lu, N Perea-Lopez, J Li, Z Lin, X Peng, CH Lee, C Sun, ... Acs Nano 8 (4), 3715-3723, 2014 | 348 | 2014 |
Atomically thin heterostructures based on single-layer tungsten diselenide and graphene YC Lin, CYS Chang, RK Ghosh, J Li, H Zhu, R Addou, B Diaconescu, ... Nano letters 14 (12), 6936-6941, 2014 | 190 | 2014 |
Energy minimization and ac demagnetization in a nanomagnet array X Ke, J Li, C Nisoli, PE Lammert, W McConville, RF Wang, VH Crespi, ... Physical review letters 101 (3), 037205, 2008 | 178 | 2008 |
Ground state lost but degeneracy found: the effective thermodynamics of artificial spin ice C Nisoli, R Wang, J Li, WF McConville, PE Lammert, P Schiffer, VH Crespi Physical review letters 98 (21), 217203, 2007 | 178 | 2007 |
Effective temperature in an interacting, externally driven, vertex system: Theory and experiment on artificial spin ice C Nisoli, J Li, X Ke, D Garand, P Schiffer, VH Crespi Phys. Rev. Lett. 105 (4), 047205, 2010 | 177 | 2010 |
Demagnetization protocols for frustrated interacting nanomagnet arrays RF Wang, J Li, W McConville, C Nisoli, X Ke, JW Freeland, V Rose, ... Journal of applied physics 101 (9), 2007 | 175 | 2007 |
Comparing artificial frustrated magnets by tuning the symmetry of nanoscale permalloy arrays J Li, X Ke, S Zhang, D Garand, C Nisoli, P Lammert, VH Crespi, P Schiffer Physical Review B—Condensed Matter and Materials Physics 81 (9), 092406, 2010 | 135 | 2010 |
Direct entropy determination and application to artificial spin ice PE Lammert, X Ke, J Li, C Nisoli, DM Garand, VH Crespi, P Schiffer Nature Physics 6 (10), 786-789, 2010 | 94 | 2010 |
Perpendicular Magnetization and Generic Realization of the<? format?> Ising Model in Artificial Spin Ice S Zhang, J Li, I Gilbert, J Bartell, MJ Erickson, Y Pan, PE Lammert, ... Physical review letters 109 (8), 087201, 2012 | 89 | 2012 |
Magneto-optical Kerr effect studies of square artificial spin ice KK Kohli, AL Balk, J Li, S Zhang, I Gilbert, PE Lammert, VH Crespi, ... Physical Review B—Condensed Matter and Materials Physics 84 (18), 180412, 2011 | 77 | 2011 |
Tuning magnetic frustration of nanomagnets in triangular-lattice geometry X Ke, J Li, S Zhang, C Nisoli, VH Crespi, P Schiffer Applied Physics Letters 93 (25), 2008 | 43 | 2008 |
Comparing frustrated and unfrustrated clusters of single-domain ferromagnetic islands J Li, S Zhang, J Bartell, C Nisoli, X Ke, PE Lammert, VH Crespi, P Schiffer Physical Review B—Condensed Matter and Materials Physics 82 (13), 134407, 2010 | 40 | 2010 |
Ignoring Your Neighbors: Moment Correlations Dominated by Indirect or Distant Interactions<? format?> in an Ordered Nanomagnet Array S Zhang, J Li, J Bartell, X Ke, C Nisoli, PE Lammert, VH Crespi, P Schiffer Physical review letters 107 (11), 117204, 2011 | 27 | 2011 |
Memory arrays C Kim, CE Carter, C Smith, C Howder, RJ Hill, J Li US Patent 10,497,715, 2019 | 19 | 2019 |
Artificial ‘spin ice’in a geometrically frustrated lattice of nanoscale ferromagnetic islands RF Wang, C Nisoli, RS Freitas, J Li, W McConville, BJ Cooley, MS Lund, ... Nature 446 (7131), 102-102, 2007 | 19 | 2007 |
NAND memory arrays, and devices comprising semiconductor channel material and nitrogen CM Carlson, HW Liu, J Li, D Pavlopoulos US Patent 10,446,681, 2019 | 15 | 2019 |
Electric-field-assisted directed assembly of transition metal dichalcogenide monolayer sheets DD Deng, Z Lin, AL Elías, N Perea-Lopez, J Li, C Zhou, K Zhang, S Feng, ... ACS nano 10 (5), 5006-5014, 2016 | 13 | 2016 |
Integrated structures and methods of forming integrated structures J Li, J Mathew, K Shrotri, LC Tran, GA Haller, Y Zhang, H Yu, M Lee US Patent 9,773,805, 2017 | 9 | 2017 |