Visual colorimetric detection of ammonia under gaseous and aqueous state: Approach on cesium lead bromide perovskite-loaded porous electrospun nanofibers

Bumjun Park; Suheon Kim; Cheol Hwan Kwak; Kugalur Ranjith Shanmugam; Young-Kyu Han; Youngjin Cho; Yun Suk Huh

Journal of Industrial and Engineering Chemistry, Vol.97, 515-522, May, 2021

DOI10.1016/j.jiec.2021.03.006 Export Citation

Visual colorimetric detection of ammonia under gaseous and aqueous state: Approach on cesium lead bromide perovskite-loaded porous electrospun nanofibers

Bumjun Park, Suheon Kim, Cheol Hwan Kwak, Kugalur Ranjith Shanmugam¹, Young-Kyu Han^{1, †}, Youngjin Cho^{2, †}, and Yun Suk Huh^†

NanoBio High-Tech Materials Research Center, Department of Biological Engineering, Inha University, 100 Inha-ro, Incheon, 22212, Republic of Korea
¹Department of Energy and Material Engineering, Dongguk University-Seoul, Seoul, 04620, Republic of Korea
²Research Group of Consumer Safety, Korea Food Research Institute, 245 Nongsaengmyeong-ro, Iseo-myeon, Wanju-gun, Jeollabuk-do 55365, Republic of Korea

E-mail:, ,

In this work, we fabricate porous cesium lead bromide nanofibers (CsPbBr3 NFs) via electrospinning and employ them in a sensor to effectively detect both gaseous and aqueous ammonia. The CsPbBr3 NFs are produced by first mixing cesium lead bromide nanocrystals (CsPbBr3 NCs) with polystyrene (PS), followed by solidifying the mixture into NFs using electrospinning. Porous NFs are modified using the volatile solvent toluene, which is volatilized during the electrospinning process. The applicability of the proposed CsPbBr3 NFs for use under various environmental conditions is verified by analyzing their stability in response to changes in temperature, moisture level and pH, which are critical drawbacks of CsPbBr3 NCs. Gaseous ammonia (9 mg L-1) in an N2 carrier is subsequently detected using the photoluminescence (PL) properties of the CsPbBr3 NFs. In addition, an ammonia concentration of 100.0 mg L-1 in an aqueous solution can be detected using the PL intensity. Therefore, we believe that the proposed CsPbBr3 NFs show significant promise for use in detection sensors to assess the extent of food decay, allowing customers to purchase fresh agricultural products more safely.

Keywords:Cesium lead bromide;Perovskite;Polystyrene;Porous nanofibers;Electrospun;Nanofibers;Ammonia detection

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[2] Suman M, Riani G, Dalcanale E, Sens. Actuators B-Chem., 125(1), 40 (2007)

[3] Doi H, Takahara T, Tanaka K, PLoS One, 7(1), e29295 (2012)

[4] Kim KH, Pal R, Ahn JW, Kim YH, Waste Manage., 29(4), 1265 (2009)

[5] Xie L, Palmer D, Otto F, Wang Z, Wang QJ, Tribol. Technol., 58(2), 215 (2015)

[6] Collman JP, Ghosh S, Dey A, Decreau RA, Proc. Natl. Acad. Sci. U. S. A., 106(52), 22090 (2009)

[7] Fiddes LK, Chang J, Yan N, Sens. Actuators B-Chem., 202, 1298 (2014)

[8] Lopez VM, Florentino B, Barlaz MA, Waste Manage., 56, 477 (2016)

[9] Serna-Maza A, Heaven S, Banks CJ, Bioresour. Technol., 190, 66 (2015)

[10] Hao JN, Yan B, Nanoscale, 8(5), 2881 (2016)

[11] Zhu X, Castleberry SR, Nanny MA, Butler EC, Environ. Sci. Technol., 39(10), 3784 (2005)

[12] Hibbard T, Killard AJ, Crit. Rev. Anal. Chem., 41(1), 21 (2011)

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[14] Dey A, Mat. Sci. Eng. B-Adv., 229, 206 (2018)

[15] Prasad AK, Kubinski DJ, Gouma PI, Sens. Actuators B-Chem., 93(1-3), 25 (2003)

[16] Jin Z, Su Y, Duan Y, Sens. Actuators B-Chem., 72(1), 75 (2001)

[17] Renganathan B, Sastikumar D, Gobi G, Yogamalar NR, Bose AC, Opt. Laser Technol., 43(8), 1398 (2011)

[18] Moseley PT, Meas. Sci. Technol., 28(8), 082001 (2017)

[19] Fine GF, Cavanagh LM, Afonja A, Binions R, Sensors, 10(6), 5469 (2010)

[20] Lin RB, Liu SY, Ye JW, Li XY, Zhang JP, Adv. Sci., 3(7), 150043 (2016)

[21] Ma D, Li B, Zhou X, Zhou Q, Liu K, Zeng G, Li G, Shi Z, Feng S, Chem. Commun., 49(79), 8964 (2013)

[22] Zhao B, Chen XY, Cheng P, Liao DZ, Yan SP, Jiang ZH, J. Am. Chem. Soc., 126(47), 15394 (2004)

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[24] Cui J, Lu Z, Li Y, Guo Z, Zheng H, Chem. Commun, 48(64), 7967 (2012)

[25] Cui YJ, Xu H, Yue YF, Guo ZY, Yu JC, Chen ZX, Gao JK, Yang Y, Qian GD, Chen BL, J. Am. Chem. Soc., 134(9), 3979 (2012)

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[32] Sheng X, Liu Y, Wang Y, Li Y, Wang X, Wang X, Dai Z, Bao J, Xu X, Adv. Mater., 29(37), 170015 (2017)

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[35] Wang Y, Zhu Y, Huang J, Cai J, Zhu J, Yang X, Shen J, Jiang H, Li C, J. Phys. Chem. Lett., 7(21), 4253 (2016)

[36] Wang Y, Chen T, Huang C, Wang Y, Wu J, Sun B, J. Electroanal. Chem, 114181 (2020).

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[38] Cho MY, Kim S, Kim IS, Kim ES, Wang J, Kim NY, Kim SW, Oh JM, Adv. Funct. Mater., 30(3), 190744 (2020)

[39] Casanova-Chafer J, Garcia-Aboal R, Atienzar P, Llobet E, Chem. Commun., 56(63), 8956 (2020)

[40] de Mello Donega C, Liljeroth P, Vanmaekelbergh D, Small, 1(12), 1152 (2005)

[41] Yassitepe E, Yang ZY, Voznyy O, Kim Y, Walters G, Castaeda JA, Kanjanaboos P, Yuan MJ, Gong XW, Fan FJ, Pan J, Hoogland S, Comin R, Bakr OM, Padilha LA, Nogueira AF, Sargent EH, Adv. Funct. Mater., 26(47), 8757 (2016)

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[43] Jung K, Kim S, Son Y, Ferraris J, Carbon Lett., 29, 177 (2019)

[44] Eda G, Shivkumar S, J. Appl. Polym. Sci., 106(1), 475 (2007)

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[47] He X, Qiu Y, Yang S, Adv. Mater., 29(32), 170077 (2017)

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[49] Singh BP, Lin SY, Wang HC, Tang AC, Tong HC, Chen CY, Lee YC, Tsai TL, Liu RS, RSC Adv., 6(83), 79410 (2016)

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[51] Tang Y, Lu H, Rao L, Li Z, Ding X, Yan C, Yu B, Materials, 11(3), 371 (2018)

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[53] Jana A, Kim KS, ACS Energy Lett., 3(9), 2120 (2018)

[54] Huang H, Chen B, Wang Z, Hung TF, Susha AS, Zhong H, Rogach AL, Chem. Sci., 7(9), 5699 (2016)

[55] Yuan X, Ma R, Hua J, Liu Y, Li J, Zhang W, Zhao J, Li H, Phys. Chem. Chem. Phys., 18, 10976 (2016)

[56] Protesescu L, Yakunin S, Bodnarchuk MI, Krieg F, Caputo R, Hendon CH, Yang RX, Walsh A, Kovalenko MV, Nano Lett., 15(2), 3692 (2015)

[57] Xiong X, Zhang J, Wang Z, Liu C, Xiao W, Han J, Shi Q, Biochip J., 14, 429 (2020)

[58] Park C, Moon S, Baek S, Kim M, Roh J, Sung J, Park T, Biochip J., 14, 211 (2020)