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·1308· 精细化工 FINE CHEMICALS 第 40 卷

为进一步探究化合物 1 在自然老化潜指纹的应 2021, 9(15): 2100180.
[3] ZHANG Z J (张志军), KANG M M (康苗苗), TANG B Z (唐本忠),
用，针对自然老化 10 d 后的潜指纹采用 1.4 节的操
et al. Recent advances of aggregation-induced emission materials in
作方法进行检测，结果如图 11 所示。由图 11 可知， phototheranostics[J]. Chinese Journal of Luminescence (发光学报),
自然老化 10 d 后，含有脊线与谷线的指纹一级结构 2021, 42(3): 361-378.
[4] WANG J H (王嘉慧), ZENG X X (曾晓璇), WU Y (吴玥), et al.
依然较为清晰。 Synthesis and characterization of pH-responsive material with
aggregation-induced emission property[J]. Chinese Journal of
Luminescence (发光学报), 2021, 42(3): 311-318.
[5] LUO J D, XIE Z L, LAM J W Y, et al. Aggregation-induced emission
of 1-methyl-1,2,3,4,5-pentaphenylsilole[J]. Chemical Communications,
2001, 18: 1740-1741.
[6] LIU B, TANG B Z. Aggregation-induced emission: More is
different[J]. Angewandte Chemie International Edition, 2020, 59(25):
9788-9789.
[7] HAN P B (韩鹏博), XU H (徐赫), AN Z F (安众福), et al.
Aggregation-induced emission[J]. Progress in Chemistry (化学进展),
2022, 34(1): 1-130.
[8] LI Y, XU L R, SU B. Aggregation induced emission for the

recognition of latent fingerprints[J]. Chemical Communications,
图 11 化合物 1 用于自然老化 10 d 潜指纹识别照片 2012, 34: 4109-4111.
Fig. 11 Picture of compound 1 for latent fingerprint after [9] LIU R, SONG Z M, LI Y H, et al. An AIPE-active heteroleptic Ir(Ⅲ)
aged 10 d complex for latent fingermarks detection[J]. Sensors and Actuators
B: Chemical, 2018, 259: 840-846.
基于前期研究表明 [8-9,17] ，有机分子可以与指纹 [10] QIN A J (秦安军), HU R (胡蓉). Prospect and challenge of polymers
featuring aggregation-induced emission characteristics[J]. Chinese
中含有的油脂物质吸附相容。本研究设计合成的有 Journal of Luminescence (发光学报), 2020, 41(9): 1082-1086.
机分子由于含有酰胺键、叔丁基等亲油性基团，在 [11] CHANG K (常凯), LI Q Q (李倩倩), LI Z (李振). Advances in
mechanoluminescence and its applications[J]. Chinese Journal of
溶液中容易发生聚集作用。因此，在溶剂挥发干后，
Organic Chemistry (有机化学), 2020, 40(11): 3656-3671.
有机分子会定向吸附在指纹纹路的油脂区域，达到 [12] JIANG M J (江美娟), GUO Z J (郭子健), TANG B Z (唐本忠).
指纹成像的效果。 Application of aggregation-induced emission materials in bioimaging,
disease diagnosis and therapy[J]. Science & Technology Review (科
技导报), 2018, 36(22): 27-53.
3 结论 [13] LI Q Q, LI Z. Miracles of molecular uniting[J]. Science China
Materials, 2020, 63(2): 177-184.
（1）设计并合成一个 D-π-A 构型的 3-溴-5-吡唑 [14] SANG R Y (桑若愚), XU X Y (许兴鹏), WANG Q (王其), et al.
甲酰胺类分子（化合物 1），其晶体具有 λ max 为 439 nm Near-infrared-Ⅱ fluorescence probes based on organic small[J]. Acta
Chimica Sinica (化学学报), 2020, 78: 901-915.
的蓝光发射性质，通过对其紫外-可见吸收光谱、荧光 [15] WU Y F, LI J G, SHEN Z P, et al. Double-pronged antimicrobial
发射光谱以及 DFT 理论计算分析，证明化合物 1 具有 agents based on a donor-π-acceptor type aggregation-induced emission
luminogen[J]. Angewandte Chemie International Edition, 2022, 61(47):
ICT 性质。
e202212386.
（2）化合物 1 在 MeCN-H 2 O 的混合溶剂中表现 [16] SONG Z M, LIU R, LI Y H, et al. AIE-active Ir(Ⅲ) complexes with
出良好的 AIE 性质，其荧光量子产率：Φ（DCM）= tunable emissions, mechanoluminescence and their application for
data security protection[J]. Journal of Materials Chemistry C, 2016,
60.1%；Φ（粉末）=67.5%；Φ（晶体）=70.2%，借 4(13): 2553-2556.
助激光粒度仪、扫描电镜以及红外光谱表征，证明 [17] SONG Z M, LIU R, LI X, et al. Tunable-emission and AIPE-active
heteroleptic Ir(Ⅲ) complexes for fingermark detection via aspraying
化合物 1 在 MeCN-H 2 O 溶剂中纳米聚集形貌、粒径
technique[J]. Journal of Materials Chemistry C, 2018, 6(40): 10910-
以及化合物 1 的活泼氢协同影响 AIE 性质。 10915.
（3）基于化合物 1 良好的 AIE 性质，化合物 1 [18] SONG Z M, CHEN Y M, ZHAO N Y, et al. A tetraphenylethylene
derivative with reversible luminous colours applied in data security[J].
可以对潜指纹的一级结构到三级结构进行精准识别 Journal of Luminescence, 2021, 238: 118322.
成像，表明化合物 1 在潜指纹识别方面有潜在的应 [19] WU Q Y, ZHANG T, PENG Q, et al. Aggregation induced blue-
用价值。 shifted emission-the molecular picture from a QM/MM study[J].
Physical Chemistry Chemical Physics, 2014, 16: 5545-5552.
[20] ZHU L N, YANG C L, QIN J G. An aggregation-induced blue shift of
参考文献：
emission and the self-assembly of nanoparticles from a novel
[1] CHEN Y (陈艳), ZHANG C J (张春静), GAO D M (高东梅), et al. amphiphilic oligofluorene[J]. Chemical Communications, 2008, 47:
Development of visualization of latent fingerprints[J]. Chinese 6303-6305.
Journal of Applied Chemistry (应用化学), 2011, 28(10): 1099-1107. [21] GONG Y B, ZHANG P, GU Y R, et al. The influence of molecular
[2] LI B, YANG Z, GONG W Q, et al. Intramolecular through-space packing on the emissive behavior of pyrene derivatives:
charge transfer based TADF-active multifunctional emitters for high Mechanoluminescence and mechanochromism[J]. Advanced Optical
efficiency solution-processed OLED[J]. Advanced Optical Materials, Material, 2018:1800198.

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