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1. Matthew effect: General design strategy of ultra‐fluorogenic nanoprobes with amplified dark–bright states in aggregates

Author

Shinsuke Segawa, Xinwen Ou, Tianruo Shen, Tomohiro Ryu, Yuki Ishii, Herman H. Y. Sung, Ian D. Williams, Ryan T. K. Kwok, Ken Onda, Kiyoshi Miyata, Xuewen He, Xiaogang Liu, and Ben Zhong Tang

Subjects
aggregation‐induced emission, bioorthogonal chemistry, click chemistry, fluorescence imaging, tetrazine, Chemistry, QD1-999, Biology (General), QH301-705.5
Abstract

Abstract Fluorescence imaging, a key technique in biological research, frequently utilizes fluorogenic probes for precise imaging in living systems. Tetrazine is an effective emission quencher in fluorogenic probe designs, which can be selectively damaged upon bioorthogonal click reactions, leading to considerable emission enhancement. Despite significant efforts to increase the emission enhancement ratio (IAC/IBC) of tetrazine‐functionalized fluorogenic probes, the influence of molecular aggregation on the emission properties has been largely overlooked in these probe designs. In this study, we reveal that an ultrahigh IAC/IBC can be realized in the aggregate system when tetrazine is paired with aggregation‐induced emission (AIE) luminogens. Tetrazine amplifies its quenching efficiency upon aggregation and drastically reduce background emissions. Subsequent click reactions damage tetrazine and trigger significant AIE, leading to considerably enhanced IAC/IBC. We further showcase the capability of these ultra‐fluorogenic systems in selective imaging of multiple organelles in living cells. We term this unique fluorogenicity of AIE luminogen‐quencher complexes with amplified dark‐bright states as “Matthew effect” in aggregate emission, potentially providing a universal approach to attain ultrahigh IAC/IBC in diverse fluorogenic systems.

Published
2024
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2. Secondary through-space interactions facilitated single-molecule white-light emission from clusteroluminogens

Author

Jianyu Zhang, Parvej Alam, Siwei Zhang, Hanchen Shen, Lianrui Hu, Herman H. Y. Sung, Ian D. Williams, Jianwei Sun, Jacky W. Y. Lam, Haoke Zhang, and Ben Zhong Tang

Subjects
Science
Abstract

Although mature and systematic theories of molecular photophysics have been developed, it is still challenging to endow clusteroluminogens (CLgens) with designed photophysical properties by manipulating through-space interactions. Here, the authors design three CLgens that show multiple emissions and white-light emission in the crystalline state, and emphasize the important role of secondary through-space interactions between the acceptor and non-conjugated donor units.

Published
2022
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3. Clusteroluminescence from Cluster Excitons in Small Heterocyclics Free of Aromatic Rings

Author

Benzhao He, Jing Zhang, Jianyu Zhang, Haoke Zhang, Xiuying Wu, Xu Chen, Konnie H. S. Kei, Anjun Qin, Herman H. Y. Sung, Jacky W. Y. Lam, and Ben Zhong Tang

Subjects
aggregation‐induced emission, clusteroluminescence, luminescent mechanism, maleimide, succinimide, Science
Abstract

Abstract The study of nonconventional luminescence is important for revealing the luminescence of natural systems and has gradually drawn the attention of researchers in recent years. However, the underlying mechanism is still inexplicable. Herein, the luminescence behavior of two series of simple, heteroatom‐containing small molecules without aromatic rings, i.e., maleimide and succinimide derivatives, are studied to gain further mechanistic insight into the nonconventional luminescence process. It has been unveiled that all the molecules exhibit bright and visible luminescence in concentrated solution and solid state and the formation of clusters is the root cause for such behaviors, which can effectively increase the possibility of both the nonradiative n–π* and favorable π–π* transitions and stabilize the excitons formed in the excited state. The distinctive luminescent phenomena and intriguing mechanism presented in this work will be significant for understanding the mechanism of clusteroluminescence and provide new strategies for the rational design of novel luminescent materials.

Published
2021
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4. Turning on Light Emission of a Dark Pro‐Aggregation‐Induced Emission Luminogen in Aqueous Media Through Reductase‐Modulated Derotation

Author

Changhuo Xu, Hang Zou, Zheng Zhao, Zheng Zheng, Ryan T. K. Kwok, Jacky W. Y. Lam, Herman H. Y. Sung, Ian D Williams, Sijie Chen, Lei Zheng, and Ben Zhong Tang

Subjects
aggregation-induced emission, azo, derotation, hypoxia, reductase, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5
Abstract

The development of dark pro‐aggregation‐induced‐emission luminogens (pro‐AIEgens) based on the solid‐state intramolecular motion–caused quenching effect has been rarely reported in biochemical analysis. Herein, an azo‐conjugated pro‐AIEgen derived from tetraphenylethene is constructed. Due to the active molecular motion of the azo bond, it retains a nonemissive property in both solution and solid forms. The obtained pro‐AIEgen can be internalized by living cells and undergo reductase‐modulated derotation under hypoxia to emit light. It shows increasing fluorescence when the intracellular oxygen concentration becomes lower, making it a potential probe to sense the hypoxic environment. The present probe can also visualize the hypoxic environment created by photodynamic therapy treatment.

Published
2021
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5. A monoclinic polymorph of 4-(2H-1,3-benzodioxol-5-yl)-1-(4-methylphenyl)-1H-pyrazol-5-amine

Author

Mukesh M. Jotani, Nilesh N. Gajera, Mukesh C. Patel, Herman H. Y. Sung, and Edward R. T. Tiekink

Subjects
crystal structure, amine, polymorph, conformation, Hirshfeld surface, Crystallography, QD901-999
Abstract

The title compound, C17H15N3O2, is a monoclinic polymorph (P21/c with Z′ = 1) of the previously reported triclinic (P-1 with Z′ = 2) form [Gajera et al. (2013). Acta Cryst. E69, o736–o737]. The molecule in the monoclinic polymorph features a central pyrazolyl ring with an N-bound p-tolyl group and a C-bound 1,3-benzodioxolyl fused-ring system on either side of the C atom bearing the amino group. The dihedral angles between the central ring and the N- and C-bound rings are 50.06 (5) and 27.27 (5)°, respectively. The angle between the pendent rings is 77.31 (4)°, indicating the molecule has a twisted conformation. The five-membered dioxolyl ring has an envelope conformation with the methylene C atom being the flap. The relative disposition of the amino and dioxolyl substituents is syn. One of the independent molecules in the triclinic form has a similar syn disposition but the other has an anti arrangement of these substituents. In the crystal structure of the monoclinic form, molecules assemble into supramolecular helical chains via amino–pyrazolyl N—H...N hydrogen bonds. These are linked into layers via C—H...π interactions, and layers stack along the a axis with no specific interactions between them.

Published
2015
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6. A New iso-Amyl Benzothiazolyl Sulfoxide as an Extractant for Palladium and the Crystal Structure of its Palladium (II) Complex

Author

Chi-K. Chang, Ian D. Williams, Herman H. Y. Sung, Hai-Yang Liu, Guo-Bang Gu, and Yao-Wei Li

Subjects
Iso-amyl benzothiazolyl sulfoxide, Palladium, Solvent extraction, Crystal structure, Organic chemistry, QD241-441
Abstract

A new iso-amyl benzothiazolyl sulfoxide (ABSO) was synthesized and used inthe extraction of Pd(II) from hydrochloric acid media. Pd(II) was extracted quantitativelyfrom 0.1 M HCl with ABSO in benzene (0.5 M). Ammonia solution (2.0 M) could beused as stripping agent. ABSO and Pd(II) form a 2:1 adduct [Pd (ABSO)2Cl2] in theextraction. X-ray crystal structure determination revealed PdCl2(ABSO)2 is asquare-planar complex in which ABSO acts as a neutral unidentate ligand coordinatedwith palladium(II) via the thiazolyl N atom.

Published
2005
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9. Synthesis and characterization of bi(metallacycloprop-1-ene) complexes

Author

Wei Bai, Long Yiu Tsang, Yilun Wang, Yang Li, Herman H. Y. Sung, Ian D. Williams, and Guochen Jia

Subjects
General Chemistry
Abstract

Well-defined metallacycloprop-1-ene complexes have only previously been isolated with a metal center bearing one vinyl moiety. We have successfully obtained the first examples of structurally characterized spiro bi(metallacycloprop-1-ene) complexes.

Published
2023

11. Rational Design of NIR-II AIEgens with Ultrahigh Quantum Yields for Photo- and Chemiluminescence Imaging

Author

Hanchen Shen, Feiyi Sun, Xinyan Zhu, Jianyu Zhang, Xinwen Ou, Jianquan Zhang, Changhuo Xu, Herman H. Y. Sung, Ian D. Williams, Sijie Chen, Ryan T. K. Kwok, Jacky W. Y. Lam, Jianwei Sun, Fan Zhang, and Ben Zhong Tang

Subjects
Mice, Luminescence, Colloid and Surface Chemistry, Optical Imaging, Fluorescence Resonance Energy Transfer, Animals, Water, General Chemistry, Biochemistry, Catalysis, Fluorescent Dyes
Abstract

Fluorescence imaging in the second near-infrared window (NIR-II, 1000-1700 nm) using small-molecule dyes is highly potential for clinical use. However, many NIR-II dyes suffer from the emission quenching effect and extremely low quantum yields (QYs) in the practical usage forms. The AIE strategy has been successfully utilized to develop NIR-II dyes with donor-acceptor (D-A) structures with acceptable QYs in the aggregate state, but there is still a large room for QY improvement. Here, we rationally designed NIR-II emissive dye named TPE-BBT and its derivative (TPEO-BBT) by changing the electron-donating triphenylamine unit to tetraphenylethlene (TPE). Their nanoparticles exhibited ultrahigh relative QYs of 31.5% and 23.9% in water, respectively. By using an integrating sphere, the absolute QY of TPE-BBT nanoparticles was measured to be 1.8% in water. Its crystals showed an absolute QY of 10.4%, which is the highest value among organ-ic small molecules reported so far. The optimized D-A interaction and the higher rigidity of TPE-BBT in the aggregate state are believed to be the two key factors for its ultrahigh QY. Finally, we utilized TPE-BBT for NIR-II photoluminescence (PL) and chemiluminescence (CL) bioimaging through successive CL resonance energy transfer and Förster resonance energy transfer processes. The ultrahigh QY of TPE-BBT realized an excellent PL imaging quality in mouse blood vessels, and an excellent CL imaging quality in the local arthrosis inflammation in mice with a high signal-to-background ratio of 130. Thus, the design strategy presented here brings new possibilities for the development of bright NIR-II dyes and NIR-II bioimaging technologies.

Published
2022

12. Metallophilicity-Induced Clusterization: Single-Component White-Light Clusteroluminescence with Stimulus Response

Author

Shiyun Lin, Jing Zhang, Herman H. Y. Sung, Xueqian Zhao, Qian Peng, Parvej Alam, Ben Zhong Tang, Jun Zhang, Ian D. Williams, Guodong Liang, Sijie Chen, Xinggui Gu, Jianyu Zhang, Jacky Wing Yip Lam, and Zheng Zhao

Subjects
Physics, Single component, White light, General Chemistry, Neuroscience, Stimulus response
Abstract

Materials showing metallophilic interactions continue to attract considerable theoretical and experimental attention largely because of their unusual and unanticipated photophysical behavior as wel...

Published
2022

14. A Simple Approach to Achieve Organic Radicals with Unusual Solid-State Emission and Persistent Stability

Author

Junyi Gong, Zebin Zeng, Jacky Wing Yip Lam, Kam Sing Wong, Ben Zhong Tang, Ian D. Williams, Zikai He, Sijie Chen, Zheng Zhao, Jing Guo, Xueqian Zhao, Yanpei wang, Chao Ma, Herman H. Y. Sung, and Parvej Alam

Subjects
Materials science, Chemical physics, Magnetism, Simple (abstract algebra), Information storage, Radical, Solid-state, General Chemistry, Symmetry breaking, Stability (probability), Photoinduced electron transfer
Abstract

Stable organic radicals are promising materials for information storage, molecular magnetism, electronic devices, and biological probes. Many organic radicals have been prepared, but most are non- ...

Published
2022

17. Asymmetric Synthesis of Pyrrolidines via Oxetane Desymmetrization

Author

Renwei Zhang, Meng Sun, Qiaolin Yan, Xingbang Lin, Xin Li, Xin Fang, Herman H. Y. Sung, Ian D. Williams, and Jianwei Sun

Subjects
Pyrrolidines, Ethers, Cyclic, Organic Chemistry, Stereoisomerism, Physical and Theoretical Chemistry, Biochemistry, Catalysis
Abstract

Asymmetric synthesis of chiral pyrrolidines bearing an all-carbon quaternary stereocenter in the 3-position remains challenging. Herein we report two efficient protocols by means of oxetane desymmetrization, featuring the use of a readily available

Published
2022

19. Organic Long-Persistent Luminescence from a Single-Component Aggregate

Author

Parvej Alam, Tsz Shing Cheung, Nelson L. C. Leung, Jianyu Zhang, Jing Guo, Lili Du, Ryan T. K. Kwok, Jacky W. Y. Lam, Zebing Zeng, David Lee Phillips, Herman H. Y. Sung, Ian D. Williams, and Ben Zhong Tang

Subjects
Colloid and Surface Chemistry, General Chemistry, Biochemistry, Catalysis
Abstract

Long-persistent luminescence (LPL), also known as afterglow, is a phenomenon in which the material shows long-lasting luminescence after the cessation of the excitation source. The research of LPL continues to attract much interest due to its fundamental nature and its potential in the development of the next generation of functional materials. However, most of the current LPL materials are multicomponent inorganic systems obtained after harsh synthetic procedures and often use rare-earth metals. Recently, metal free organic long-persistent luminescence (OLPL) has gained much interest because it can bypass many of the disadvantages of inorganic systems. To date, the most successful method to generate OLPL systems is to access charge-separated states through binary donor-acceptor exciplex systems. However, it has been reported that the ratios of the binary systems affect OLPL properties, complicating the reproducibility and large-scale production of OLPL materials. Simpler OLPL systems can overcome these issues for the benefit of the development and adoption of OLPL systems. Here, we report on the rational design and synthesis of a single-component OLPL system with detectable afterglow for at least 12 min under ambient conditions. This work exemplifies an easy design principle for new OLPL materials. The investigation of the material provides valuable insights toward the generation of OLPL from a single-component system.

Published
2022

20. Synthesis and Reactivity of Redox-Active Cerium(IV) Aryloxide Complexes

Author

Hoang-Long Pham, Thayalan Rajeshkumar, Lily Ueh-hsi Wang, Yat Hei Ng, Kai-Hong Wong, Yat-Ming So, Herman H. Y. Sung, Rolf Lortz, Ian D. Williams, Laurent Maron, and Wa-Hung Leung

Subjects
Inorganic Chemistry, Organic Chemistry, Physical and Theoretical Chemistry
Published
2023

22. Tuning the Self-Trapped Emission: Reversible Transformation to 0D Copper Clusters Permits Bright Red Emission in Potassium and Rubidium Copper Bromides

Author

Ian D. Williams, Rolf Lortz, Zhicong Zhou, Yanyan Li, Kam Sing Wong, Fu Kit Sheong, Herman H. Y. Sung, Zengshan Xing, and Jonathan E. Halpert

Subjects
Fuel Technology, Materials science, chemistry, Renewable Energy, Sustainability and the Environment, Chemistry (miscellaneous), Potassium, Materials Chemistry, Energy Engineering and Power Technology, chemistry.chemical_element, Photochemistry, Copper, Transformation (music), Rubidium
Published
2021

24. How do molecular interactions affect fluorescence behavior of AIEgens in solution and aggregate states?

Author

Junkai Liu, Zheng Zhao, Ben Zhong Tang, Herman H. Y. Sung, Hao Xing, Ian D. Williams, Ying Yu, Jonathan E. Halpert, and Zhicong Zhou

Subjects
Molecular interactions, symbols.namesake, Aggregate (composite), Chemistry, Chemical physics, symbols, Quantum yield, Molecule, Protein folding, General Chemistry, van der Waals force, Fluorescence, Experimental research
Abstract

Molecular interactions are crucial in diverse fields of protein folding, material science, nanotechnology, and life origins. Although mounting experimental research controls luminescent behavior by adjusting molecular interactions in light-emitting materials, it remains elusive to correlate microscopic molecular interactions with macroscopic luminescent behavior directly. Here, we synthesized three red luminogens with subtle structural variation and investigated the influence of molecular interactions on their luminescent behavior in solution and aggregate states. Our results indicate that strong π-π and D-A interactions in both dilute solution (between luminogen and solvent molecules) and aggregate (between luminogens) states cause the redshift in emission, while weak interactions ({tie.g.}, Van der Waals, C-H⋯π, and C-H⋯F interactions) enhance the quantum yield. This work provides a thoughtful investigation into the complicated influence of various molecular interactions on luminescent behavior.

Published
2021

25. Revealing the Intrinsic Chiroptical Activity in Chiral Metal-Halide Semiconductors

Author

Zixuan Zhang, Zhiyu Wang, Herman H.-Y. Sung, Ian D. Williams, Zhi-Gang Yu, and Haipeng Lu

Subjects
Colloid and Surface Chemistry, General Chemistry, Biochemistry, Catalysis
Abstract

The combination of chirality and semiconducting properties has enabled chiral metal-halide semiconductors (MHS) to be promising candidates for spin- and polarization-resolved optoelectronic devices. Although several chiral MHS with rich chemical and structural diversity have been reported lately, the macroscopic origin of chiroptical activity remains elusive. Here, combining spectroscopic measurements and Mueller matrix analysis, we discover that the previously reported "apparent" anisotropy factor measured from circular dichroism (CD) in chiral MHS thin films is not an intrinsic chiroptical property, but rather, arising from an interference between the film's linear birefringence (LB) and linear dichroism (LD). We verify the presence of LB and LD effects in both one-dimensional and zero-dimensional chiral MHS thin films. We establish spectroscopic methods to decouple the genuine CD from other spurious contributions, which allows a quantitative comparison of the intrinsic chiroptical activity across different chiral MHS. The relationship between the structure and the genuine chiroptical activity is then uncovered, which is well described by the chirality-induced spin-orbit coupling in the chiral structures. Our study unveils the macroscopic origin of chiroptical activity of chiral MHS and provides design principles for obtaining high anisotropic factors for future chiral optoelectronic applications.

Published
2022

26. Hierarchical Supramolecular Self‐Assembly: Fabrication and Visualization of Multiblock Microstructures**

Author

Xiujuan Shi, Jun Zhang, Junkai Liu, Xueqian Zhao, Haoran Wang, Peifa Wei, Xiaodong Zhang, Xin‐Long Ni, Herman H.‐Y. Sung, Ian D. Williams, Wai Kit Ng, Kam Sing Wong, Jacky W. Y. Lam, Lin Wang, Honglin Jin, and Ben Zhong Tang

Subjects
Bridged-Ring Compounds, Ions, Molecular Structure, Imidazoles, General Medicine, General Chemistry, Crystallography, X-Ray, Catalysis
Abstract

Due to the fast dynamics and re-equilibration of supramolecular self-assembly, bottom-up molecular strategies to fabricate well-defined and controllable multiblock structures are rare. Herein, we propose a new concept for fabrication of fluorescent multiblock microcolumns containing 1 to 7 blocks via hierarchical supramolecular self-assembly based on cucurbit[8]uril (CB[8]), NaBr and an AIEgen guest. Through the complexation between CB[8] and different numbers of AIEgen guests (2, 1, 0), the competitive displacement caused by the binding of the sodium cation to the CB[8] portal, and the reversible assembly of positively charged guests in salt solutions, one-pot hierarchical supramolecular self-assembly is realized. The molecular structure of each block is analyzed by single-crystal X-ray diffraction. The AIEgen enables the self-assembly of multiblocks to be visualized, understood, and regulated.

Published
2022

27. Control of 11-Aza:4-X-SalA Cocrystal Polymorphs Using Heteroseeds That Switch On/Off Halogen Bonding

Author

Keyao Li, Monalisa Roy, Madiha Nisar, Lawrence W-Y. Wong, Herman H-Y. Sung, Richard K. Haynes, and Ian D. Williams

Subjects
Inorganic Chemistry, General Chemical Engineering, General Materials Science, cocrystal, polymorph, hetero-seeding, liquid assisted grinding (LAG), artemisinin, anti-malarial drugs, conformational polymorph, Halogen bonds, Condensed Matter Physics
Abstract

A family of: 1:1 cocrystals 11-Aza:4-X-SalA have been prepared from the potent anti-malarial compound 11-azaartemisinin with 4-halosalicylic acids. When X = 4-Cl, 4-Br and 4-I, two conformational polymorphs can be isolated in each case. Monoclinic type-I was found previously for parent 11-Aza:SalA (1) and 11-Aza:4-Br-SalA (3a) which have polar 21 stacks of molecular pairs with no short halogen bond contacts between stacks. Orthorhombic type-II is found for 4-Cl (3b) and 4-I (4b) from solution growth. This has a translational stack of molecular pairs involving a conformational change of the acid-lactam hetero-synthon and supramolecular association of stacks via halogen bonds. Notably, phase pure polymorph type-I can be formed for 4-Cl (3a) and 4-I (4a) by hetero-seeding with 11-Aza:SalA, whist conversely phase pure type-II for 4-Br (2b) can be formed using homo-seeding from liquid assisted grinding (LAG) product. This work demonstrates both the viability of engineering polymorphic cocrystal forms using hetero-seeds and the involvement of halogen bonds in helping to discriminate quite different polymorphic types.

Published
2022
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28. Visualization and Manipulation of Solid-State Molecular Motions in Cocrystallization Processes

Author

Jacky Wing Yip Lam, David Lee Phillips, Yuanhong Shu, Lili Du, Ian D. Williams, Haoke Zhang, Haoran Wang, Ben Zhong Tang, Wei Jiang, Qiyao Li, Ran Lu, Zheng Zhao, Jianyu Zhang, and Herman H. Y. Sung

Subjects
Information storage, Solid-state, General Chemistry, 010402 general chemistry, 01 natural sciences, Biochemistry, Fluorescence, Cocrystal, Catalysis, 0104 chemical sciences, chemistry.chemical_compound, Colloid and Surface Chemistry, chemistry, Molecular motion, Multicomponent systems, Molecule, Physical chemistry, Oxazole
Abstract

Solid-state molecular motions (SSMM) play a critical role in adjusting behaviors and properties of materials. However, research on SSMM, especially for multicomponent systems, suffers from various problems and is rarely explored. Herein, through collaboration with cocrystal engineering, visualization and manipulation of SSMM in two-component systems, namely, FSBO ((E)-2-(4-fluorostyryl)benzo[d]oxazole)/TCB (1,2,4,5-tetracyanobenzene) and PVBO ((E)-2-(2-(pyridin-4-yl)vinyl)benzo[d]oxazole)/TCB, were realized. The obtained yellow-emissive F/T (FSBO/TCB) cocrystal displayed turn-on fluorescence, and the green-emissive P/T (PVBO/TCB) cocrystal presented redder emission, both of which exhibited an aggregation-induced emission property. At varied pressure and temperature, the grinding mixtures of FSBO/TCB and PVBO/TCB displayed different molecular motions that were readily observed through the fluorescence signal. Notably, even without grinding, FSBO and TCB molecules could move over for 4 mm in a 1D tube. The unique emission changes induced by SSMM were applied in information storage and dynamic anticounterfeiting. This work not only visualized and manipulated SSMM but offered more insights for multicomponent study in aggregate science.

Published
2021

30. Highly Stable Tetrahydrothiophene 1-Oxide Caged Copper Bromide and Chloride Clusters with Deep-Red to Near-IR Emission

Author

Yanyan Li, Zhicong Zhou, Zengshan Xing, Kam Sing Wong, Herman H. Y. Sung, Ian D. Williams, and Jonathan E. Halpert

Subjects
Inorganic Chemistry, Physical and Theoretical Chemistry
Abstract

All-inorganic copper(I)-based metal halides have emerged as promising candidates for the replacement of lead perovskites because of their outstanding optical properties. However, the limited structure tunability prohibits their further exploration of properties including red photoluminescence (PL). Here, we report a series of red-emissive lead-free hybrid organic-inorganic copper halides A

Published
2022

32. Tau-aggregation inhibitors derived from Streptomyces tendae MCCC 1A01534 protect HT22 cells against okadaic acid-induced damage

Author

Xin, Liu, Weiyi, She, Herman H-Y, Sung, Ian D, Williams, and Peiyuan, Qian

Subjects
Structural Biology, General Medicine, Molecular Biology, Biochemistry
Abstract

Alzheimer's disease (AD) is an age-related neurodegenerative disease characterized by tau aggregating into neurofibrillary tangles. Targeting tau aggregation is one of the most critical strategies for AD treatment and prevention. Herein, a high-throughput screening of tau-aggregation inhibitors was performed by thioflavin T (ThT) fluorescence assay and tauR3 peptides. According to bioactivity-guided isolation, homoprejadomycin (1) was obtained from the marine bacterium Streptomyces tendae MCCC 1A01534. Two new stable derivatives, 2 and 3, were yielded in a one-step reaction. By ThT assay, transmission electron microscopy, and circular dichroism, we demonstrated that the angucyclinones 2 and 3 inhibited tau aggregation and disaggregated tau fibrils. In the presence of 2, native tauR3 peptides maintained the disorder conformation, whereas the tauR3 aggregates reduced β-sheet structures. And compound 2 was confirmed to inhibit the aggregation of full-length 2N4R tau protein. Furthermore, 2 with low cytotoxicity protected HT22 cells from okadaic acid-induced damage by suppressing tau aggregates. These results indicated that 2 was a promising lead structure with tau therapeutic potency for AD treatment.

Published
2023

35. Griseocazines: Neuroprotective Multiprenylated Cyclodipeptides Identified through Targeted Genome Mining

Author

Jessie James Limlingan Malit, Chuanhai Wu, Xueying Tian, Wenchao Liu, Duli Huang, Herman H.-Y. Sung, Ling-Li Liu, Ian D. Williams, and Pei-Yuan Qian

Subjects
Prenylation, Organic Chemistry, Physical and Theoretical Chemistry, Dimethylallyltranstransferase, Biochemistry, Substrate Specificity
Abstract

Prenylation can impart pharmacological advantages to bioactive compounds. Global genome mining for prenylated cyclodipeptides identified a

Published
2022

36. More is different: activating luminescence in aggregate via restriction of inter-molecular motion

Author

tu deshuang, Lianrui Hu, Xuhui Bian, Yucui Zhang, Herman H. Y. Sung, KWOK Tsz Kin Ryan, Jacky W. Y. Lam, Ian Duncan WILLIAMS, lei han, and Ben Zhong Tang

Abstract

Molecular motion is related to the structures and properties of the molecules and their aggregates. Owing to both weak intermolecular interactions and complicated interplay between molecules, the manipulation of inter-molecular motion to realize specific structures and properties as well as applications, is challenging but attractive. Here, we reported that the photoluminescence property of luminogens could be tuned by the manipulation of the inter-molecular motion based on the dynamic ionic bond between the cation of acridinium and the anion of tetraphenyl boron. The free inter-molecular motion and the strong attraction of the ionic bond in the non/less polar solvents enabled the formation of a dark state in the excited state with faint emission. In contrast, multiple ionic bonds between cation and anion together with non-covalent interactions were observed in the crystalline state. This directly contributed to the restriction of the inter-molecular motion (RIMM), and eventually gave rise to bright aggregation-induced emission. Such a RIMM model for efficient solid-state emission can be validated by several organic ionic species. More importantly, this type of “multicomponent luminogens” showed remarkable reactive oxygen species generation, which enabled them to kill bacteria even superbugs upon white-light irradiation. This study not only provided fundamental insights into the molecular motion-structure-property relationship, but also opened up the possibility of constructing highly efficient luminogens in aggregates via RIMM for advanced applications.

Published
2022

37. Solution-processed AIEgen NIR OLEDs with EQE Approaching 15

Author

Ying Yu, Hao Xing, Dan Liu, Mengying Zhao, Herman H.‐Y. Sung, Ian D. Williams, Jacky W. Y. Lam, Guohua Xie, Zheng Zhao, and Ben Zhong Tang

Subjects
General Medicine, General Chemistry, Catalysis
Abstract

Organic near-infrared (NIR) luminogens have attracted intensive attention considering their vast potential applications in areas like bioimaging, organic light-emitting diodes (OLEDs) and night-vision telecommunication. However, organic NIR luminogens with high solid quantum efficiencies are scarce, limiting their applications. Here, we reported an electron-deficient acceptor, BSM, based on dithiafulvalene and benzothiadiazole, which could work as a strong acceptor to produce highly efficient NIR emitters with aggregation-induced emission (AIE) property. One of the AIEgens, TBSMCN emitted at 820 nm with a solid quantum yield of 10.7 %. When applied to solution-processed OLEDs, an outstanding external quantum efficiency (EQE) of 9.4 % was achieved with a peak wavelength at 728 nm. Moreover, its non-doped device could achieve an extraordinary EQE of 2.2 % peaking at 804 nm. In the further optimized configuration, when an extra sensitizer was added to harvest triplet excitons, the EQE unprecedentedly soared up to 14.3 % with a peak wavelength of 750 nm.

Published
2022

38. Albofungin and chloroalbofungin: antibiotic crystals with 2D but not 3D isostructurality

Author

Pei-Yuan Qian, Ian D. Williams, Herman H. Y. Sung, Weiyi She, and Wenkang Ye

Subjects
010405 organic chemistry, Space group, Regioselectivity, Crystal structure, 010402 general chemistry, Condensed Matter Physics, 01 natural sciences, 0104 chemical sciences, Inorganic Chemistry, Bond length, chemistry.chemical_compound, Crystallography, chemistry, Atom, Xanthone, Materials Chemistry, Physical and Theoretical Chemistry, Isostructural, Monoclinic crystal system
Abstract

The potent antibiotics albofungin [systematic name: (1S,4R,8aR)-13-amino-1,15,16-trihydroxy-4-methoxy-12-methyl-3,4,8a,13-tetrahydro-1H-xantheno[4′,3′,2′:4,5][1,3]benzodioxino[7,6-g]isoquinoline-14,17(2H,9H)-dione, C27H24N2O9, 1] and its chlorinated analogue chloroalbofungin (the 11-chloro analogue, C27H23ClN2O9, 2) have been crystallized following their isolation from the bacterial strain Streptomyces chrestomyceticus and their structures determined by single-crystal X-ray diffraction. The novel N-aminoquinolone molecular arrangement shows N—N bond lengths of 1.4202 (16) and 1.424 (2) Å in 1 and 2, respectively. The regiochemistry of chloro substitution in the A-ring is para to the quinolone O atom, with a C—Cl bond length of 1.741 (2) Å. The absolute stereochemistry at three chiral centres of the xanthone rings (i.e. 10S, 13R and 19R) is confirmed. Both compounds crystallize in chiral Sohncke space groups consistent with enantiopurity, but are not fully isostructural. A preserved supramolecular construct (SC) confers two-dimensional (2D) isostructurality, but the SC self-associates via either a twofold screw operation in 1, giving a monoclinic P21 structure, or a twofold rotation in 2, affording a monoclinic C2 structure with a doubled unit-cell axis.

Published
2020

39. Molecular Motions in AIEgen Crystals: Turning on Photoluminescence by Force-Induced Filament Sliding

Author

Parvej Alam, Fengyan Song, Zaiyu Wang, Ben Zhong Tang, Herman H. Y. Sung, Han Zhang, Jacky Wing Yip Lam, Junyi Gong, Zhiming Wang, Ian D. Williams, Benzhao He, Wenjie Wu, and Jing Zhang

Subjects
Phase transition, Luminescence, Photoluminescence, Surface Properties, 010402 general chemistry, 01 natural sciences, Biochemistry, Phase Transition, Catalysis, law.invention, Crystal, Protein filament, Motion, Colloid and Surface Chemistry, law, Molecule, Particle Size, Crystallization, Molecular Structure, Chemistry, General Chemistry, Photochemical Processes, 0104 chemical sciences, Chemical physics, Crystallite, Organogold Compounds
Abstract

Life process is amazing, and it proceeds against the eternal law of entropy increase through molecular motion and takes energy from the environment to build high-order complexity from chaos to achieve evolution with more sophisticated architectures. Inspired from the elegance of life process and also to effectively exploit the undeveloped solid-state molecular motion, two unique chiral Au(I) complexes were elaborately developed in this study, in which their powders could realize a dramatic transformation from nonemissive isolated crystallites to emissive well-defined microcrystals under the stimulation of mechanical force. Such an unusual crystallization was presumed to be caused by molecular motions driven by the formation of strong aurophilic interactions as well as multiple C-H···F and π-π interactions. Such a prominent macroscopic off/on luminescent switching could also be achieved through extremely subtle molecular motions in the crystal state and presented a filament sliding that occurred in a layer-by-layer molecular stacking fashion with no involvement of any crystal phase transition. Additionally, it had been demonstrated that the manipulation of the solid-state molecular motions could result in the generation of circularly polarized luminescence.

Published
2020

41. Robust Alkyne Metathesis Catalyzed by Air Stable d2 Re(V) Alkylidyne Complexes

Author

Wei Bai, Herman H. Y. Sung, Ian D. Williams, Mingxu Cui, and Guocheng Jia

Subjects
Chemistry, Substrate (chemistry), General Chemistry, 010402 general chemistry, 01 natural sciences, Biochemistry, Catalysis, Pyridine ligand, 0104 chemical sciences, Colloid and Surface Chemistry, Polymer chemistry, Alkyne metathesis, Salt metathesis reaction
Abstract

We report in this communication the first example of catalytic alkyne metathesis reactions mediated by well-defined non-d0 alkylidyne complexes. The air-stable d2 Re(V) alkylidyne complex Re4, bearing two PO-chelating ligands and a labile pyridine ligand, could catalyze homometathesis of internal alkynes with a broad substrate scope, including alcohols, amines, and even carboxylic acids. The catalyst can tolerate heating, air, and moisture in both solid and solution states, and the catalytic metathesis reactions could proceed normally in wet solvents.

Published
2020

42. Chiral anionic layers in tartramide spiroborate salts and variable solvation for [NR 4][B(TarNH2)2] (R = Et, Pr or Bu)

Author

Aristyo Soecipto, Lawrence W.-Y. Wong, Ian D. Williams, and Herman H. Y. Sung

Subjects
chemistry.chemical_classification, 010405 organic chemistry, Hydrogen bond, Diol, Solvation, Salt (chemistry), Crystal structure, 010402 general chemistry, Condensed Matter Physics, 01 natural sciences, Medicinal chemistry, 0104 chemical sciences, Inorganic Chemistry, chemistry.chemical_compound, chemistry, Amide, Materials Chemistry, Physical and Theoretical Chemistry, Nonane, Hydrate
Abstract

The spiroborate anion, namely, 2,3,7,8-tetracarboxamido-1,4,6,9-tetraoxa-5λ4-boraspiro[4.4]nonane, [B(TarNH2)2]−, derived from the diol L-tartramide TarNH2, [CH(O)(CONH2)]2, shows a novel self-assembly into two-dimensional (2D) layer structures in its salts with alkylammonium cations, [NR 4]+ (R = Et, Pr and Bu), and sparteinium, [HSpa]+, in which the cations and anions are segregated. The structures of four such salts are reported, namely, the tetrapropylazanium salt, C12H28N+·C8H12BN4O8 −, the tetraethylazanium salt hydrate, C8H20N+·C8H12BN4O8 −·6.375H2O, the tetrabutylazanium salt as the ethanol monosolvate hemihydrate, C16H36N+·C8H12BN4O8 −·C2H5OH·0.5H2O, and the sparteinium (7-aza-15-azoniatetracyclo[7.7.1.02,7.010,15]heptadecane) salt as the ethanol monosolvate, C15H27N2 +·C8H12BN4O8 −·C2H5OH. The 2D anion layers have preserved intermolecular hydrogen bonding between the amide groups and a typical metric repeat of around 10 × 15 Å. The constraint of matching the interfacial area organizes the cations into quite different solvated arrangements, i.e. the [NEt4] salt is highly hydrated with around 6.5H2O per cation, the [NPr4] salt apparently has a good metric match to the anion layer and is unsolvated, whilst the [NBu4] salt is intermediate and has EtOH and H2O in its cation layer, which is similar to the arrangement for the chiral [HSpa]+ cation. This family of salts shows highly organized chiral space and offers potential for the resolution of both chiral cations and neutral chiral solvent molecules.

Published
2020

44. Crystal structures of the flavonoid Oroxylin A and the regioisomers Negletein and Wogonin

Author

Herman H. Y. Sung, Elena V. Vashchenko, Valerii V. Vashchenko, Ruel Valerio Robles De Grano, Madiha Nisar, and Ian D. Williams

Subjects
chemistry.chemical_classification, 010405 organic chemistry, Flavonoid, Crystal structure, Pharmaceutical formulation, 010402 general chemistry, Condensed Matter Physics, 01 natural sciences, Combinatorial chemistry, 0104 chemical sciences, Inorganic Chemistry, chemistry.chemical_compound, Wogonin, chemistry, Materials Chemistry, Structural isomer, Oroxylin A, Physical and Theoretical Chemistry
Abstract

The flavonoid Oroxylin A (6-methoxychrysin or 5,7-dihydroxy-6-methoxy-2-phenyl-4H-chromen-4-one, C16H12O5) and its regioisomers are of increasing interest for a variety of bioactive functions and their pharmaceutical formulation is of importance. Previous difficulties in the separation and misidentification of Oroxylin A from its regioisomers Wogonin (8-methoxychrysin or 5,7-dihydroxy-8-methoxy-2-phenyl-4H-chromen-4-one) and Negletein (5,6-dihydroxy-7-methoxyflavone or 5,6-dihydroxy-7-methoxy-2-phenyl-4H-chromen-4-one) render its full structural and powder X-ray characterization highly desirable. The low-temperature (100 K) crystal structures of Oroxylin A, Negletein and Wogonin sesquihydrate are reported for the first time. Wogonin crystallizes in two related but distinct hydrated forms. These have very similar powder diffractograms, indicating that such issues need to be addressed for its pharmaceutical formulation.

Published
2020

45. Multifunctional Au I ‐based AIEgens: Manipulating Molecular Structures and Boosting Specific Cancer Cell Imaging and Theranostics

Author

Ryan T. K. Kwok, Xuewen He, Hang Zou, Ben Zhong Tang, Jacky Wing Yip Lam, Benzhao He, Lei Zheng, Jinping Lei, Jing Zhang, and Herman H. Y. Sung

Subjects
Radiosensitizer, Auranofin, 010405 organic chemistry, Chemistry, Thioredoxin reductase, Cancer, Nanotechnology, General Chemistry, 010402 general chemistry, Ligand (biochemistry), medicine.disease, 01 natural sciences, Catalysis, 0104 chemical sciences, Cancer cell, medicine, Aggregation-induced emission, Cytotoxicity, medicine.drug
Abstract

Gold(I) N-heterocyclic carbene (AuI -NHC) complexes have emerged as potential anticancer agents owing to their high cytotoxicity and stability. Integration of their above unique functions with customized aggregation-induced emission (AIE) luminogens to achieve specific bioimaging and efficient theranostics to cancer is highly desirable but is rarely studied. Now, a series of novel AuI -NHC compounds were developed with AIE characteristics. A complex with a PPh3 ligand was selected out as it could achieve both prominent specific imaging of various cancer cells and efficient inhibition of their growth with negligible toxic effects on normal cells due to the targeting binding and strong inhibition towards thioredoxin reductase. This complex could also act as a powerful radiosensitizer to boost the anticancer efficacy with performance superior to that of popularly used auranofin. It holds great potential as a specific and effective theranostic drug in cancer diagnosis and precise therapy.

Published
2020

46. Substituent Effect on the Reactions of OsCl2(PPh3)3 with o-Ethynylphenyl Carbonyl Compounds

Author

Chuan Shi, Guocheng Jia, Wei Bai, Wenqing Ruan, Tilong Yang, Zhenyang Lin, Herman H. Y. Sung, and Ian D. Williams

Subjects
Inorganic Chemistry, chemistry.chemical_compound, chemistry, 010405 organic chemistry, Organic Chemistry, Substituent, Physical and Theoretical Chemistry, 010402 general chemistry, 01 natural sciences, Medicinal chemistry, 0104 chemical sciences
Abstract

Reactions of OsCl2(PPh3)3 with o-ethynylphenyl-carbonyl compounds o-HC≡CC6H4C(O)R (2, R = H (a) and Et (b)) produced the η3-o-ethynylphenyl-carbonyl complexes OsCl2(PPh3)2{η3-(o-HC≡CC6H4C(O)R)} (3)...

Published
2020

47. Polymorph selectivity of an AIE luminogen under nano-confinement to visualize polymer microstructures

Author

Michidmaa Khorloo, Herman H. Y. Sung, Ian D. Williams, Ben Zhong Tang, Yanhua Cheng, Haoke Zhang, Jacky Wing Yip Lam, and Ming Chen

Subjects
chemistry.chemical_classification, Materials science, Crystallization of polymers, Nanotechnology, General Chemistry, Polymer, Fluorescence, eye diseases, Amorphous solid, Chemistry, chemistry, Metastability, Phase (matter), Nano, sense organs, Luminescence
Abstract

Despite the huge progress of luminescent molecular assemblies over the past decade, it is still challenging to understand their confined behavior in semi-crystalline polymers for constrained space recognition. Here, we report a polymorphic luminogen with aggregation-induced emission (AIE), capable of selective growth in polymer amorphous and crystalline phases with distinct color. The polymorphic behaviors of the AIE luminogen embedded within the polymer network are dependent on the size of nano-confinement: a thermodynamically stable polymorph of the AIE luminogen with green emission is stabilized in the amorphous phase, while a metastable polymorph with yellow emission is confined in the crystalline phase. The information on polymer crystalline and amorphous phases is transformed into distinct fluorescence colors, allowing a single AIE luminogen as a fluorescent marker for visualization of polymer microstructures in terms of amorphous and crystalline phase distribution, quantitative polymer crystallinity measurement, and spatial morphological arrangement. Our findings demonstrate that confinement of the AIE luminogen in the polymer network can achieve free space recognition and also provide a correlation between microscopic morphologies and macroscopic optical signals. We envision that our strategy will inspire the development of other materials with spatial confinement to incorporate AIE luminogens for various applications., A polymorphic AIEgen is capable of selective growth in amorphous and crystalline polymer phases with distinct color for microstructure visualization.

Published
2020

48. In vivomonitoring of tissue regeneration using a ratiometric lysosomal AIE probe

Author

Guangle Niu, Simon H. P. Sung, Zhiyang Liu, Ryan T. K. Kwok, Junkai Liu, Xiujuan Shi, Herman H. Y. Sung, Jacky Wing Yip Lam, Ben Zhong Tang, Neng Yan, Ian D. Williams, and Wen-Xiong Wang

Subjects
0303 health sciences, Biocompatibility, Chemistry, Regeneration (biology), Transgene, Autophagy, General Chemistry, 010402 general chemistry, 01 natural sciences, Fluorescence, In vitro, 0104 chemical sciences, 03 medical and health sciences, In vivo, Biophysics, Distribution (pharmacology), 030304 developmental biology
Abstract

Tissue regeneration is a crucial self-renewal capability involving many complex biological processes. Although transgenic techniques and fluorescence immunohistochemical staining have promoted our understanding of tissue regeneration, simultaneous quantification and visualization of tissue regeneration processes is not easy to achieve. Herein, we developed a simple and quantitative method for the real-time and non-invasive observation of the process of tissue regeneration. The synthesized ratiometric aggregation-induced-emission (AIE) probe exhibits high selectivity and reversibility for pH responses, good ability to map lysosomal pH both in vitro and in vivo, good biocompatibility and excellent photostability. The caudal fin regeneration of a fish model (medaka larvae) was monitored by tracking the lysosomal pH change. It was found that the mean lysosomal pH is reduced during 24–48 hpa to promote the autophagic activity for cell debris degradation. Our research can quantify the changes in mean lysosomal pH and also exhibit its distribution during the caudal fin regeneration. We believe that the AIE-active lysosomal pH probe can also be potentially used for long-term tracking of various lysosome-involved biological processes, such as tracking the stress responses of tissue, tracking the inflammatory responses, and so on., An AIE-active ratiometric probe for the first time achieved the long-term quantification of lysosomal pH during the medaka larva's caudal fin regeneration.

Published
2020

49. Dewar Metallabenzenes from Reactions of Metallacyclobutadienes with Alkynes

Author

Wei Wei, Xin Xu, Herman H. Y. Sung, Ian D. Williams, Zhenyang Lin, and Guochen Jia

Subjects
General Chemistry, General Medicine, Catalysis
Abstract

Dewar benzenes, the metastable valence isomers of benzenes, have been extensively studied both experimentally and theoretically. In contrast, little is known about Dewar metallabenzenes having a transition metal in the skeletal framework, despite the recent intensive interest in the development of chemistry of metallabenzenes. Herein, we report the isolation and characterization of the first examples of structurally characterized Dewar metallabenzenes. These compounds were generated via unprecedented reactions of metallacyclobutadienes with aminoalkynes.

Published
2022

50. Hierarchical living assembly: fabrication and visualization of multiblock microstructures

Author

Xiujuan Shi, Jun Zhang, Junkai Liu, Xueqian Zhao, Haoran Wang, Peifa Wei, Xin-Long Ni, Herman H.-Y. Sung, Ian D. Williams, Wai Kit Ng, Kam Sing Wong, Jacky W. Y. Lam, Lin Wang, and Ben Zhong Tang

Abstract

Nature possesses a powerful ability to assemble multiple complex structures to fabricate hierarchical biological structures in a living-assembled way. However, it is still a huge challenge for artificial systems to fabricate and characterize hierarchical living assemblies with well-defined and controllable but complex structures. In this work, we proposed a new concept for the fabrication of multiblock fluorescent microcolumns, which relies on the cooperation between the controllable host–guest complexation based on cucurbit[8]uril (CB[8]) and the living assembly of nanotubular supramolecular polymers composed of CB[8] and NaBr in aqueous solution. By using the complexation of CB[8] with different guest numbers of luminogens with aggregation-induced emission (AIEgens) characteristics, and the difference in affinity between CB[8] and different types of AIEgens, the concentration-controlled and self-sorting-controlled sequential living assembly are realized, respectively. Correspondingly, multiblock fluorescent microcolumns with different fluorescence emission are fabricated, and the molecular structure of each fluorescent block is analyzed by single crystal X-ray diffraction measurement. In addition, the living assembly of multiblock fluorescent microcolumns is visualized, understood, and regulated with the aid of AIEgens. The method developed here is expected to be extended to more guest molecules of CB[8] and also provides a referential crystallization method for CB[8]-based complexes.

Published
2021

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