Pattanawit Swanglap
Pattanawit Swanglap
Verified email at rice.edu
Title
Cited by
Cited by
Year
A plasmonic Fano switch
WS Chang, JB Lassiter, P Swanglap, H Sobhani, S Khatua, P Nordlander, ...
Nano letters 12 (9), 4977-4982, 2012
3362012
One-photon plasmon luminescence and its application to correlation spectroscopy as a probe for rotational and translational dynamics of gold nanorods
A Tcherniak, S Dominguez-Medina, WS Chang, P Swanglap, ...
The Journal of Physical Chemistry C 115 (32), 15938-15949, 2011
2142011
In situ measurement of bovine serum albumin interaction with gold nanospheres
S Dominguez-Medina, S McDonough, P Swanglap, CF Landes, S Link
Langmuir 28 (24), 9131-9139, 2012
1922012
Plasmon emission quantum yield of single gold nanorods as a function of aspect ratio
Y Fang, WS Chang, B Willingham, P Swanglap, S Dominguez-Medina, ...
ACS nano 6 (8), 7177-7184, 2012
1872012
Electromagnetic energy transport in nanoparticle chains via dark plasmon modes
D Solis Jr, B Willingham, SL Nauert, LS Slaughter, J Olson, P Swanglap, ...
Nano letters 12 (3), 1349-1353, 2012
1452012
Active modulation of nanorod plasmons
S Khatua, WS Chang, P Swanglap, J Olson, S Link
Nano letters 11 (9), 3797-3802, 2011
1292011
Single-particle spectroscopy of gold nanorods beyond the quasi-static limit: varying the width at constant aspect ratio
LS Slaughter, WS Chang, P Swanglap, A Tcherniak, BP Khanal, ...
The Journal of Physical Chemistry C 114 (11), 4934-4938, 2010
1122010
Radiative and nonradiative properties of single plasmonic nanoparticles and their assemblies
WS Chang, B Willingham, LS Slaughter, S Dominguez-Medina, ...
Accounts of chemical research 45 (11), 1936-1945, 2012
732012
Spiky gold nanoshells: synthesis and enhanced scattering properties
BL Sanchez-Gaytan, P Swanglap, TJ Lamkin, RJ Hickey, Z Fakhraai, ...
The Journal of Physical Chemistry C 116 (18), 10318-10324, 2012
732012
Turning the corner: Efficient energy transfer in bent plasmonic nanoparticle chain waveguides
D Solis Jr, A Paul, J Olson, LS Slaughter, P Swanglap, WS Chang, S Link
Nano letters 13 (10), 4779-4784, 2013
512013
Quadrupole-enhanced Raman scattering
SP Hastings, P Swanglap, Z Qian, Y Fang, SJ Park, S Link, N Engheta, ...
ACS nano 8 (9), 9025-9034, 2014
442014
Plasmonic polymers unraveled through single particle spectroscopy
LS Slaughter, LY Wang, BA Willingham, JM Olson, P Swanglap, ...
Nanoscale 6 (19), 11451-11461, 2014
272014
Highly Hg 2+-sensitive and selective fluorescent sensors in aqueous solution and sensors-encapsulated polymeric membrane
S Kraithong, P Damrongsak, K Suwatpipat, J Sirirak, P Swanglap, ...
RSC advances 6 (13), 10401-10411, 2016
262016
Seeing double: coupling between substrate image charges and collective plasmon modes in self-assembled nanoparticle superstructures
P Swanglap, LS Slaughter, WS Chang, B Willingham, BP Khanal, ...
Acs Nano 5 (6), 4892-4901, 2011
252011
Measuring the hydrodynamic size of nanoparticles using fluctuation correlation spectroscopy
S Dominguez-Medina, S Chen, J Blankenburg, P Swanglap, CF Landes, ...
Annual review of physical chemistry 67, 489-514, 2016
232016
“Turn-ON”[5] helicene-based fluorescence sensor with very large Stokes shift for highly selective detection of Ag+ and AgNPs
A Petdum, W Panchan, P Swanglap, J Sirirak, T Sooksimuang, ...
Sensors and Actuators B: Chemical 259, 862-870, 2018
152018
Enhancing sensitivity of novel Hg2+ fluorescent sensor via Plasmonic enhancement of silver nanoparticles
S Kraithong, J Sirirak, K Soisuwan, N Wanichacheva, P Swanglap
Sensors and Actuators B: Chemical 258, 694-703, 2018
112018
Cu2+-selective NIR fluorescence sensor based on heptamethine cyanine in aqueous media and its application
O Hanmeng, N Chailek, A Charoenpanich, P Phuekvilai, N Yookongkaew, ...
Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 240, 118606, 2020
82020
Detailed mechanism for the orthogonal polarization switching of gold nanorod plasmons
J Olson, P Swanglap, WS Chang, S Khatua, D Solis, S Link
Physical Chemistry Chemical Physics 15 (12), 4195-4204, 2013
72013
A method to detect Hg2+ in vegetable via a “Turn–ON” Hg2+–Fluorescent sensor with a nanomolar sensitivity
S Kraithong, W Panchan, A Charoenpanich, J Sirirak, S Sahasithiwat, ...
Journal of Photochemistry and Photobiology A: Chemistry 389, 112224, 2020
62020
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