Photonics Research, Volume. 10, Issue 9, 2239(2022)
Low-threshold and narrow-emission random lasing in a self-assembly TiN nanoparticle-doped carbon quantum dot/DCM nanowire composite
[1] D. Wiersma. The smallest random laser. Nature, 406, 133-135(2000).
[2] Z. Yang, W. Zhang, R. Ma, X. Dong, S. L. Hansen, X. Li, Y. Rao. Nanoparticle mediated microcavity random laser. Photonics Res., 5, 557-560(2017).
[3] Y.-P. Peng, W. Lu, P. Ren, Y. Ni, Y. Wang, L. Zhang, Y.-J. Zeng, W. Zhang, S. Ruan. Integration of nanoscale light emitters: an efficient ultraviolet and blue random lasing from NaYF4:Yb/Tm hexagonal nanocrystals. Photonics Res., 6, 943-947(2018).
[4] S. Gao, J. Wang, W. Li, X. Yu, X. Zhang, X. Song, A. Iljin, I. Drevensek-Olenik, R. A. Rupp, J. Xu. Low threshold random lasing in dye-doped and strongly disordered chiral liquid crystals. Photonics Res., 8, 642-647(2020).
[5] S. Yuan, D. Chen, X. Li, J. Zhong, X. Xu.
[6] G. Sarantoglou, M. Skontranis, A. Bogris, C. Mesaritakis. Experimental study of neuromorphic node based on a multiwaveband emitting two-section quantum dot laser. Photonics Res., 9, B87-B95(2021).
[7] A. Y. Liu, S. Srinivasan, J. Norman, A. C. Gossard, J. E. Bowers. Quantum dot lasers for silicon photonics [Invited]. Photonics Res., 3, B1-B9(2015).
[8] L. Yang, T. Wang, Q. Min, C. Pi, F. Li, X. Yang, K. Li, D. Zhou, J. Qiu, X. Yu, X. Xu. Ultrahigh photo-stable all-inorganic perovskite nanocrystals and their robust random lasing. Nano. Adv., 2, 888-895(2020).
[9] D. S. Wiersma. The physics and applications of random lasers. Nat. Phys., 4, 359-367(2008).
[10] H. Cao. Lasing in random media. Waves Random Media, 13, R1-R39(2003).
[11] M. Cao, Y. Zhang, X. Song, Y. Che, H. Zhang, H. Dai, G. Zhang, J. Yao. Random lasing in a colloidal quantum dot-doped disordered polymer. Opt. Express, 24, 9325-9331(2016).
[12] F. Luan, B. Gu, A. S. L. Gomes, K.-T. Yong, S. Wen, P. N. Prasad. Lasing in nanocomposite random media. Nano Today, 10, 168-192(2015).
[13] W. Zhang, Y. Ni, X. Xu, W. Lu, P. Ren, P. Yan, C. K. Siu, S. Ruan, S. F. Yu. Realization of multiphoton lasing from carbon nanodot microcavities. Nanoscale, 9, 5957-5963(2017).
[14] F. Yuan, Z. Xi, X. Shi, Y. Li, X. Li, Z. Wang, L. Fan, S. Yang. Ultrastable and low-threshold random lasing from narrow-bandwidth-emission triangular carbon quantum dots. Adv. Opt. Mater., 7, 1801202(2019).
[15] A. Yadav, L. Bai, Y. Yang, J. Liu, A. Kaushik, G. J. Cheng, L. Jiang, L. Chi, Z. Kang. Lasing behavior of surface functionalized carbon quantum dot/RhB composites. Nanoscale, 9, 5049-5054(2017).
[16] Y. Ni, H. Wan, W. Liang, S. Zhang, X. Xu, L. Li, Y. Shao, S. Ruan, W. Zhang. Random lasing carbon dot fibers for multilevel anti-counterfeiting. Nanoscale, 13, 16872-16878(2021).
[17] Y. Ni, X. Li, W. Liang, S. Zhang, X. Xu, Z. Li, L. Li, Y. Shao, S. Ruan, W. Zhang. Transformation of random lasing to Fabry–Perot lasing: observation of high temperature lasing from carbon dots. Nanoscale, 13, 7566-7573(2021).
[18] W.-C. Liao, Y.-M. Liao, C.-T. Su, P. Perumal, S.-Y. Lin, W.-J. Lin, C.-H. Chang, H.-I. Lin, G. Haider, C.-Y. Chang, S.-W. Chang, C.-Y. Tsai, T.-C. Lu, T.-Y. Lin, Y.-F. Chen. Plasmonic carbon-dot-decorated nanostructured semiconductors for efficient and tunable random laser action. ACS Appl. Nano Mater., 1, 152-159(2018).
[19] C. Gollner, J. Ziegler, L. Protesescu, D. N. Dirin, R. T. Lechner, G. Fritz-Popovski, M. Sytnyk, S. Yakunin, S. Rotter, A. A. Yousefi Amin, C. Vidal, C. Hrelescu, T. A. Klar, M. V. Kovalenko, W. Heiss. Random lasing with systematic threshold behavior in films of CdSe/CdS core/thick-shell colloidal quantum dots. ACS Nano, 9, 9792-9801(2015).
[20] F. Di Stasio, A. Polovitsyn, I. Angeloni, I. Moreels, R. Krahne. Broadband amplified spontaneous emission and random lasing from wurtzite CdSe/CdS “giant-shell” nanocrystals. ACS Photonics, 3, 2083-2088(2016).
[21] Y.-J. Lee, T.-W. Yeh, C. Zou, Z.-P. Yang, J.-W. Chen, P.-L. Hsu, J.-L. Shen, C.-C. Chang, J.-K. Sheu, L. Y. Lin. Graphene quantum dot vertical cavity surface-emitting lasers. ACS Photonics, 6, 2894-2901(2019).
[22] O. N. Karpov, G. N. Bondarenko, A. S. Merekalov, G. A. Shandryuk, O. M. Zhigalina, D. N. Khmelenin, E. A. Skryleva, L. A. Golovan, R. V. Talroze. Formation of the inorganic and organic shells on the surface of CdSe quantum dots. ACS Appl. Mater. Interfaces, 13, 36190-36200(2021).
[23] H. Zhu, W. Zhang, S. F. Yu. Realization of lasing emission from graphene quantum dots using titanium dioxide nanoparticles as light scatterers. Nanoscale, 5, 1797-1802(2013).
[24] W. F. Zhang, L. M. Jin, S. F. Yu, H. Zhu, S. S. Pan, Y. H. Zhao, H. Y. Yang. Wide-bandwidth lasing from C-dot/epoxy nanocomposite Fabry–Perot cavities with ultralow threshold. J. Mater. Chem. C, 2, 1525-1531(2014).
[25] Y. Li, K. Xie, X. Zhang, Z. Hu, J. Ma, X. Chen, J. Zhang, Z. Liu, D. Chen. Coherent random lasing realized in polymer vesicles. Photon. Sens., 10, 254-264(2020).
[26] G. Weng, J. Yan, S. Chen, C. Zhao, H. Zhang, J. Tian, Y. Liu, X. Hu, J. Tao, S. Chen, Z. Zhu, H. Akiyama, J. Chu. Superior single-mode lasing in a self-assembly CsPbX3 microcavity over an ultrawide pumping wavelength range. Photonics Res., 9, 54-65(2021).
[27] S. C. Singh, R. Gopal. Drop shaped zinc oxide quantum dots and their self-assembly into dendritic nanostructures: liquid assisted pulsed laser ablation and characterizations. Appl. Surf. Sci., 258, 2211-2218(2012).
[28] S. Kedia, R. Vijaya, A. K. Ray, S. Sinha. Spectral narrowing and lasing threshold in self-assembled active photonic crystal. Opt. Commun., 284, 2056-2060(2011).
[29] R. Yang, Z. Hu, Y. Li, J. Xia, J. Ma, J. Yang. Spray coated perylenebisimide/polymer film with controllable molecular aggregation state and emission properties. RSC Adv., 10, 2437-2447(2020).
[30] P. Rafieipour, A. G. Ardakani, F. Daneshmand. Resonant random laser emission from graphene quantum dots doped dye solution. Laser Phys., 30, 115003(2020).
[31] R. Xiong, S. Yu, M. J. Smith, J. Zhou, M. Krecker, L. Zhang, D. Nepal, T. J. Bunning, V. V. Tsukruk. Self-assembly of emissive nanocellulose/quantum dot nanostructures for chiral fluorescent materials. ACS Nano, 13, 9074-9081(2019).
[32] C. Wei, S.-Y. Liu, C.-L. Zou, Y. Liu, J. Yao, Y. S. Zhao. Controlled self-assembly of organic composite microdisks for efficient output coupling of whispering-gallery-mode lasers. J. Am. Chem. Soc., 137, 62-65(2015).
[33] Y. Wang, H. Li, L. Zhao, Y. Liu, S. Liu, J. Yang. Tunable whispering gallery modes lasing in dye-doped cholesteric liquid crystal microdroplets. Appl. Phys. Lett., 109, 231906(2016).
[34] D. Venkatakrishnarao, R. Chandrasekar. Engineering the self-assembly of DCM dyes into whispering-gallery-mode μ-hemispheres and Fabry–Pèrot-type μ-rods for visible–NIR (600–875 nm) range optical microcavities. Adv. Opt. Mater., 4, 112-119(2016).
[35] K. Sunita, V. Ramarao, K. R. Alok, S. Sucharita. Laser emission from self-assembled active photonic crystal matrix. J. Nanophotonics, 4, 049506(2010).
[36] L. Cerdán, A. Costela, E. Enciso, I. García-Moreno. Random lasing in self-assembled dye-doped latex nanoparticles: packing density effects. Adv. Funct. Mater., 23, 3916-3924(2013).
[37] L.-J. Chen, J.-H. Dai, J.-D. Lin, T.-S. Mo, H.-P. Lin, H.-C. Yeh, Y.-C. Chuang, S.-A. Jiang, C.-R. Lee. Wavelength-Tunable and highly stable perovskite-quantum-dot-doped lasers with liquid crystal lasing cavities. ACS Appl. Mater. Interfaces, 10, 33307-33315(2018).
[38] F. Yuan, L. Ding, Y. Li, X. Li, L. Fan, S. Zhou, D. Fang, S. Yang. Multicolor fluorescent graphene quantum dots colorimetrically responsive to all-pH and a wide temperature range. Nanoscale, 7, 11727-11733(2015).
[39] H. Liu, F. Wang, Y. Wang, J. Mei, D. Zhao. Whispering gallery mode laser from carbon dot–NaCl hybrid crystals. ACS Appl. Mater. Interfaces, 9, 18248-18253(2017).
[40] S.-H. Kim, S.-H. Kim, W. C. Jeong, S.-M. Yang. Low-threshold lasing in 3D dye-doped photonic crystals derived from colloidal self-assemblies. Chem. Mater., 21, 4993-4999(2009).
[41] S. Zhang, Y. Li, P. Hu, Z. Tian, Q. Li, A. Li, Y. Zhang, F. Yun. Realization of directional single-mode lasing by a GaN-based warped microring. Photonics Res., 9, 432-438(2021).
[42] K. Cyprych, D. Chateau, A. Désert, S. Parola, J. Mysliwiec. Plasmonic nanoparticles driven enhanced light amplification in a local 2D and 3D self-assembly. Nanomaterials, 8, 1051(2018).
[43] L. Huang, D. Zhang, C. Ge, M. He, Z. Zeng, Y. Wang, S. Liu, X. Wang, A. Pan. Enhancing circular polarization of photoluminescence of two-dimensional Ruddlesden–Popper perovskites by constructing van der Waals heterostructures. Appl. Phys. Lett., 119, 151101(2021).
[44] D. Lai, T. Liu, X. Gu, Y. Chen, J. Niu, L. Yi, W. Chen. Suspension synthesis of surfactant-free cuprous oxide quantum dots. J. Nanomater., 2015, 825021(2015).
[45] M. Zavelani-Rossi, M. G. Lupo, R. Krahne, L. Manna, G. Lanzani. Lasing in self-assembled microcavities of CdSe/CdS core/shell colloidal quantum rods. Nanoscale, 2, 931-935(2010).
[46] E. Avellanal-Zaballa, J. Bañuelos, H. Manzano, J. L. Chiara, L. Cerdán, I. Garcia-Moreno. Taming the photonic behavior of laser dyes through specific and dynamic self-assembly onto cellulose nanocrystals. Adv. Photonics Res., 2, 2000107(2021).
Get Citation
Copy Citation Text
Jing Lyu, Xinyu Zhang, Lei Cai, Li Tao, Weifeng Ma, An Li, Ye Tian, Yunsong Yin, Denan Kong, Wen Yi, Xianshuang Wang, Ruibin Liu. Low-threshold and narrow-emission random lasing in a self-assembly TiN nanoparticle-doped carbon quantum dot/DCM nanowire composite[J]. Photonics Research, 2022, 10(9): 2239
Category: Lasers and Laser Optics
Received: May. 3, 2022
Accepted: Jul. 24, 2022
Published Online: Sep. 1, 2022
The Author Email: Ruibin Liu (liusir@bit.edu.cn)