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Before Joining NUS (2016-2024)

17. Lu, J.; Jung, H.; Kim, J.-Y.; Kotov, N. K.* Bright, circularly polarized black-body radiation from twisted nanocarbon filaments

Science, 2024, 386, 14001404

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16. Lu, J.; Wu, W.; Colombari, F.; Jawaid, A.; Seymour, B.; Whisnant, K.; Zhong, X.; Choi, W.; Chalmpes, N.; Lahann, J.; Moura, A. F.*; Nepal, D.*; Vaia, R.*; Kotov, N. K.* Nano-achiral complex composites for extreme polarization optics

Nature, 2024, 630, 860–865

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15. Shao, X.; Zhu, C.; Wang, Y.; Kumar, P.; Lu, J.; Cha, M.; Lin, Y.; Cao, Y.; Mao, X.; Heinz, H.*; Kotov, N. K.* Voltage-driven chiral deformations of ceramic nanoparticles during ion-intercalation

Adv. Mater. 2023, 2206956.

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14. Zhou, S.†; Li, J.†; Lu, J.†; Liu, H.; Kim, J.-Y.; Kim, A.; Yao, L.; Liu, C.; Qian, C.; Hood, Z. D.; Chen, W.; Gage, T. E.; Arslan, I.; Travesset, A.; Sun, K.; Kotov, N. K.*; Chen, Q.* Chiral assemblies of pinwheel superlattices on substrates

Nature 2022, 612, 259–265

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13. Ohnoutek, L.†; Kim, J.-Y.†; Lu, J.; Olohan, B. J.; Răsădean, D. M.; PantoÈ™, G. D.; Kotov, N. A.*; Valev, V. K.* Third harmonic Mie scattering from semiconductor nanohelices

Nat. Photonics 2022, 16, 126–133

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12. Zhang N.-N.†; Sun H.-R.†; Liu S.; Xing Y.-C.; Lu J.; Peng, F.; Han, C.-L.; Wei, Z.; Sun, T.; Yang B.; Liu K.* Gold nanoparticle enantiomers and their chiral-morphology dependence of cellular uptake

CCS Chemistry 2022, 4, 660–670

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11. Lu, J.; Xue, Y.; Bernardino, K.; Zhang, N.-N.; Gomes, W. R.; Ramesar, N. S.; Liu, S.; Hu, Z.; Sun, T.; Moura, A. F.*; Kotov, N. A.*; Liu, K.* Enhanced optical asymmetry in supramolecular chiroplasmonic assemblies with long-range order

Science 2021, 371, 1368–1374

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10. Tang, L.†; Vo, T.†; Fan, X.; Vecchio, D.; Ma, T.; Lu, J.; Hou, H.; Glotzer, S.*; Kotov, N. A.* Self-assembly mechanism of complex corrugated particles

J. Am. Chem. Soc. 2021, 143, 19655–19667

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9. Lu, J.†; Xue, Y.†; Kotov, N. A.* Emerging trends in chiral inorganic nanostructures

Isr. J. Chem. 2021, 61, 851–862

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8. Serafin, F.; Lu, J.; Kotov, N.; Sun, K.; Mao, X.* Frustrated self-assembly of non-Euclidean crystals of nanoparticles

Nat. Commun. 2021, 12, 4925

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7. Wang, Z.-Y.; Zhang, N.-N.; Li, J.-C.; Lu, J.; Zhao, L.; Fang, X.-D.*; Liu, K.* Serum albumins guided plasmonic nanoassemblies with opposite chiralities

Soft Matter 2021, 17, 6298–6304

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6. Lu, J.; Kotov, N. A.* Chiromagnetic properties of semiconductor nanorods

Matter 2020, 2, 1089–1090

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5. Yan, J.; Feng, W.; Kim, J. Y.; Lu, J.; Kumar, P.; Mu, Z.; Wu, X.; Mao, X.; Kotov, N. A.* Self-assembly of chiral nanoparticles into semiconductor helices with tunable near-infrared optical activity

Chem. Mater. 2020, 32, 476–488

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4. Wang Y. X.; Li, A. J.; Wang, H. L.; Liu, W.; Kang, J.; Lu, J.; Lu, S. Y.; Yang, Y.; Liu, K.*; Yang, B. In-situ seed-mediated growth of polymer-grafted gold nanoparticles

Langmuir 2020, 36, 789–795

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3. Lu, J.; Xue, Y.; Shi, R.; Kang, J.; Zhao, C. Y.; Wang, C. Y.; Lu, Z. Y.*; Liu, K.* A Non-sacrificial method for the quantification of poly(ethylene glycol) grafting density on gold nanoparticles for applications in nanomedicine

Chem. Sci. 2019, 10, 2067–2074

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2. Lu, J.; Chang, Y. X.; Zhang, N. N.; Wei, Y.; Li, A. J.; Tai, J.; Xue, Y.; Wang, Z. Y.; Yang, Y.; Zhao, L.; Lu, Z. Y.; Liu, K.* Chiral plasmonic nanochains via the self-assembly of gold nanorods and helical glutathione oligomers facilitated by cetyltrimethylammonium bromide micelles

ACS Nano 2017, 11, 3463–3475

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1. Wei, Y.; Lu, J.; Lu, T.; Meng, F.; Xu, J.; Wang, L.; Li, Y.; Wang, L.; Li, F.* Formation of lamellar micelle-like oligomers and membrane disruption revealed by the study of short peptide hIAPP18−27

Phys. Chem. Chem. Phys. 2016, 18, 29847−29857

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