| # | Document title | Authors | Year | Source | Cited by |
| 1 | Nanocomposite of fullerenes and natural rubbers: Martini force field molecular dynamics simulations | Kitjanon J., Khuntawee W., Khuntawee W., Phongphanphanee S., Phongphanphanee S., Sutthibutpong T., Sutthibutpong T., Sutthibutpong T., Chattham N., Karttunen M., Wong-Ekkabut J., Wong-Ekkabut J. | 2021 | Polymers
13(22) | 1 |
| 2 | Application of optical tweezers and excimer laser to study protoplast fusion | Kantawang T., Samipak S., Limtrakul J., Chattham N. | 2015 | Proceedings of SPIE - The International Society for Optical Engineering
9659 | 0 |
| 3 | Miniaturized metalens based optical tweezers on liquid crystal droplets for lab-on-a-chip optical motors | Suwannasopon S., Suwannasopon S., Meyer F., Schlickriede C., Chaisakul P., T-Thienprasert J., Limtrakul J., Limtrakul J., Zentgraf T., Chattham N. | 2019 | Crystals
9(10) | 5 |
| 4 | Azodendrimers as a photoactive interface for liquid crystals | Eremin A., Nádasi H., Hirankittiwong P., Hirankittiwong P., Kiang-Ia J., Kiang-Ia J., Chattham N., Chattham N., Haba O., Yonetake K., Takezoe H., Takezoe H. | 2018 | Liquid Crystals
45(13-15),pp. 2121-2131 | 32 |
| 5 | Detection of rice grain chalkiness level with volume estimation from image processing | Sujarit A., Cheaupan K., Chattham N. | 2020 | Proceedings of SPIE - The International Society for Optical Engineering
11331 | 0 |
| 6 | Anomalous lehmann rotation of achiral nematic liquid crystal droplets trapped under linearly polarized optical tweezers | Kiang-Ia J., Taeudomkul R., Taeudomkul R., Prajongtat P., Tin P., Pattanaporkratana A., Chattham N. | 2021 | Molecules
26(14) | 0 |
| 7 | Moisture-Resistant Electrospun Polymer Membranes for Efficient and Stable Fully Printable Perovskite Solar Cells Prepared in Humid Air | Prajongtat P., Sriprachuabwong C., Wongkanya R., Dechtrirat D., Sudchanham J., Srisamran N., Sangthong W., Chuysinuan P., Tuantranont A., Hannongbua S., Chattham N. | 2019 | ACS Applied Materials and Interfaces
11(31),pp. 27677-27685 | 11 |
| 8 | Direct observation of two-dimensional nematic and smectic ordering in freely suspended films of a bolaamphiphilic liquid crystal | Chattham N., Zhu C., Cheng X., Limtrakul J., Tschierske C., MacLennan J., Clark N. | 2011 | Soft Matter
7(21),pp. 9978-9982 | 10 |
| 9 | Optical activity produced by layer chirality in bent-core liquid crystals | Hough L., Zhu C., Nakata M., Chattham N., Dantlgraber G., Tschierske C., Clark N. | 2007 | Physical Review Letters
98(3) | 23 |
| 10 | Optimization of end-fire coupling between an LED mid-IR light source and SiNx optical waveguides for spectroscopic sensing | Jaturaphagorn P., Chattham N., Limsuwan P., Chaisakul P. | 2021 | Results in Optics
5 | 1 |
| 11 | Microsurgery of elodea cells using excimer laser | Kantawang T., Limtrakul J., Samipak S., Chattham N. | 2015 | Bio-Optics: Design and Application, BODA 2015
| 0 |
| 12 | Leaning-type polar smectic- C phase in a freely suspended bent-core liquid crystal film | Chattham N., Chattham N., Tamba M.G., Stannarius R., Westphal E., Westphal E., Gallardo H., Prehm M., Tschierske C., Takezoe H., Eremin A. | 2015 | Physical Review E - Statistical, Nonlinear, and Soft Matter Physics
91(3) | 9 |
| 13 | Growth pattern of yeast cells studied under optical tweezers | Charrunchon S., Limtrakul J., Chattham N. | 2012 | Frontiers in Optics, FIO 2012
| 1 |
| 14 | Frustration between two- And three-dimensional smectic ordering leads to a biaxial nematic phase | Chen D., Chen D., Chen D., Coleman D.A., Zhu C., Chattham N., Chattham N., Jenz F., Jenz F., Cheng X., Cheng X., Tschierske C., Glaser M.A., Maclennan J.E., Clark N.A. | 2020 | Soft Matter
16(3),pp. 747-753 | 0 |
| 15 | Controlled rotation of lipid tubules with optical tweezers | Charrunchon S., Sumriddetchkajorn S., Limtrakul J., Chattham N. | 2010 | Proceedings of SPIE - The International Society for Optical Engineering
7712 | 1 |
| 16 | All-dielectric silicon metalens for two-dimensional particle manipulation in optical tweezers | Chantakit T., Chantakit T., Chantakit T., Schlickriede C., Sain B., Meyer F., Weiss T., Chattham N., Zentgraf T. | 2020 | Photonics Research
8(9),pp. 1435-1440 | 18 |
| 17 | Polarization-modulated smectic liquid crystal phases | Coleman D.A., Fernsler J., Chattham N., Nakata M., Takanishi Y., Körblova E., Link D.R., Link D.R., Shao R.F., Jang W.G., Maclennan J.E., Mondainn-Monval O., Mondainn-Monval O., Boyer C., Weissflog W., Pelzl G., Chien L.C., Zasadzinski J., Watanabe J., Walba D.M., Takezoe H., Clark N.A. | 2003 | Science
301(5637),pp. 1204-1211 | 273 |
| 18 | Precession mechanism of nematic liquid crystal droplet under optical tweezers | Phanphak S., Pattanaporkratana A., Limtrakul J., Chattham N. | 2013 | Proceedings of SPIE - The International Society for Optical Engineering
8883 | 0 |
| 19 | Linear aggregation of spherical nanogolds in carbon nanotube suspension under influence of AC electric field | Mungkhong R., Chattham N., Pattanaporkratana A. | 2019 | Journal of Physics: Conference Series
1380(1) | 0 |
| 20 | Triclinic fluid order | Chattham N., Korblova E., Shao R., Walba D.M., MacLennan J.E., Clark N.A. | 2010 | Physical Review Letters
104(6) | 22 |
| 21 | Growth pattern of yeast cells studied under optical tweezers | Charrunchon S., Limtrakul J., Chattham N. | 2012 | 2012 IEEE Photonics Conference, IPC 2012
,pp. 292-293 | 0 |
| 22 | Torque Induced on Lipid Microtubules with Optical Tweezers | Wichean T., Charrunchon S., Pattanaporkratana A., Limtrakul J., Chattham N. | 2017 | Journal of Physics: Conference Series
901(1) | 0 |
| 23 | Rate of growth pattern of yeast cells studied under optical tweezers | Charrunchon S., Limtrakul J., Chattham N. | 2013 | Proceedings of SPIE - The International Society for Optical Engineering
8883 | 0 |
| 24 | Hough et al. Reply: | Hough L., Zhu C., Nakata M., Chattham N., Dantlgraber G., Tschierske C., Clark N. | 2008 | Physical Review Letters
101(7) | 7 |
| 25 | Effect of high spontaneous polarization on defect structures and orientational dynamics of tilted chiral smectic freely suspended films | Link D.R., Link D.R., Chattham N., Maclennan J.E., Clark N.A. | 2005 | Physical Review E - Statistical, Nonlinear, and Soft Matter Physics
71(2) | 24 |
| 26 | Investigation on optical integration between LED Mid-IR light sources and Si-based waveguides for sensing applications | Jaturaphagorn P., Chaisakul P., Chattham N., Limsuwan P. | 2022 | Journal of Physics: Conference Series
2145(1) | 0 |
| 27 | Characteristics of fork fringes formed by two obliquely-incident vortex beams with different topological charge number | Choomdaeng S., Chattham N., Pattanapokratana A. | 2018 | Journal of Physics: Conference Series
1144(1) | 2 |
| 28 | Precession mechanism of nematic liquid crystal droplets under low power optical tweezers | Phanphak S., Pattanaporkratana A., Limtrakul J., Chattham N. | 2014 | Ferroelectrics
468(1),pp. 114-122 | 3 |
| 29 | Optical manipulation of the nematic director field around microspheres covered with an azodendrimer monolayer | Hirankittiwong P., Hirankittiwong P., Chattham N., Chattham N., Limtrakul J., Haba O., Yonetake K., Eremin A., Stannarius R., Takezoe H. | 2014 | Optics Express
22(17),pp. 20087-20093 | 18 |
| 30 | de Gennes' triclinic smectics - not so far-fetched after all | Chattham N., Korblova E., Shao R., Walba D., Maclennan J., Clark N. | 2009 | Liquid Crystals
36(10-11),pp. 1309-1317 | 16 |
| 31 | Probing chirality of a lipid tubular by confocal Raman microscopy | Kiang-Ia J., Kiang-Ia J., Hailong H., Bin Y., Jantippana Y., Pantu P., Limtrakul J., Chattham N., Zexiang S., Ting Y. | 2010 | Journal of Nanoscience and Nanotechnology
10(11),pp. 7208-7211 | 6 |
| 32 | Optically driven translational and rotational motions of microrod particles in a nematic liquid crystal | Eremin A., Hirankittiwong P., Hirankittiwong P., Hirankittiwong P., Chattham N., Chattham N., Chattham N., Nádasi H., Stannarius R., Limtrakul J., Limtrakul J., Haba O., Yonetake K., Takezoe H. | 2015 | Proceedings of the National Academy of Sciences of the United States of America
112(6),pp. 1716-1720 | 39 |