Ding Ding
Ding Ding
KLA Corporation, Singapore
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Cited by
Cited by
Demonstration of a state-insensitive, compensated nanofiber trap
A Goban, KS Choi, DJ Alton, D Ding, C Lacroûte, M Pototschnig, T Thiele, ...
Physical review letters 109 (3), 033603, 2012
Phonon coherence and its effect on thermal conductivity of nanostructures
G Xie, D Ding, G Zhang
Advances in Physics: X 3 (1), 1480417, 2018
Length dependent thermal conductivity measurements yield phonon mean free path spectra in nanostructures
H Zhang, C Hua, D Ding, AJ Minnich
Scientific Reports 5 (1), 9121, 2015
A state-insensitive, compensated nanofiber trap
C Lacroûte, KS Choi, A Goban, DJ Alton, D Ding, NP Stern, HJ Kimble
New Journal of Physics 14 (2), 023056, 2012
Radial quasiballistic transport in time-domain thermoreflectance studied using Monte Carlo simulations
D Ding, X Chen, AJ Minnich
Applied Physics Letters 104 (14), 2014
Achieving better greenhouse effect than glass: visibly transparent and low emissivity metal-polymer hybrid metamaterials
T Li, Y Gao, K Zheng, Y Ma, D Ding, H Zhang
ES Energy & Environment 5 (13), 102-107, 2019
Machine Learning for Novel Thermal-Materials Discovery: Early Successes, Opportunities, and Challenges
H Zhang, K Hippalgaonkar, T Buonassisi, OM Løvvik, E Sagvolden, ...
ES Energy & Environment 2, 1, 2018
Elastic and thermal properties of free-standing molybdenum disulfide membranes measured using ultrafast transient grating spectroscopy
T Kim, D Ding, JH Yim, YD Jho, AJ Minnich
APL Materials 5 (8), 2017
Artificial cognitive memory—changing from density driven to functionality driven
LP Shi, KJ Yi, K Ramanathan, R Zhao, N Ning, D Ding, TC Chong
Applied Physics A 102, 865-875, 2011
Origin of ferromagnetism and the design principle in phase-change magnetic materials
D Ding, K Bai, WD Song, LP Shi, R Zhao, R Ji, M Sullivan, P Wu
Physical Review B 84 (21), 214416, 2011
Enhanced thermal conductance at the graphene–water interface based on functionalized alkane chains
S Chen, M Yang, B Liu, M Xu, T Zhang, B Zhuang, D Ding, X Huai, ...
RSC advances 9 (8), 4563-4570, 2019
Decoding a percolation phase transition of water at∼ 330 K with a nanoparticle ruler
CDS Brites, B Zhuang, ML Debasu, D Ding, X Qin, FE Maturi, WWY Lim, ...
The Journal of Physical Chemistry Letters 11 (16), 6704-6711, 2020
Novel methods to harness solar radiation for advanced energy applications
Y Gao, Z Wang, D Ding, W Li, Y Ma, Y Hao, H Zhang
ES Energy & Environment 5 (2), 1-7, 2019
Active thermal extraction of near-field thermal radiation
D Ding, T Kim, AJ Minnich
Physical Review B 93 (8), 081402, 2016
An investigation of the heat absorption and transmission into a scaled building structure installed with a fluidic window
HEY Jonathan, D Ding, JL Tan
Energy and Buildings 209, 109652, 2020
Non-imaging optics for improving waste heat collection with thermoelectrics
Z He, MX Foo, D Yong, T Ma, Y Hao, H Zhang, D Ding
ES Energy & Environment 6 (2), 78-84, 2019
Corrections to our results for optical nanofiber traps in Cesium
D Ding, A Goban, KS Choi, HJ Kimble
arXiv preprint arXiv:1212.4941, 2012
Lasing with cell-endogenous fluorophores: parameters and conditions
D Yong, D Ding
Scientific reports 7 (1), 13569, 2017
Selective radiative heating of nanostructures using hyperbolic metamaterials
D Ding, AJ Minnich
Optics express 23 (7), A299-A308, 2015
Sensing coherent phonons with two-photon interference
D Ding, X Yin, B Li
New Journal of Physics 20 (2), 023008, 2018
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