Co-reporter:Yu Wang;Hongxun Fang;Wei Zhang;Yongbin Zhuang;Zhongqun Tian
Chemical Communications 2017 vol. 53(Issue 64) pp:8956-8959
Publication Date(Web):2017/08/08
DOI:10.1039/C7CC04159D
We report the post-synthesis interconversion of two enantiomeric organic cages through turning inside out. By scrutinizing the thermodynamics and kinetics, we are able to control the racemization rate by various reaction conditions and reveal that the turning-inside-out interconversion is realized through a partial disassembly pathway. The kinetics investigation also provides insight into the dynamic essence of imine chemistry using different solvents and catalysts.
Co-reporter:Xiao-Ye Wang, Xin-Chang Wang, Akimitsu Narita, Manfred Wagner, Xiao-Yu Cao, Xinliang Feng, and Klaus Müllen
Journal of the American Chemical Society 2016 Volume 138(Issue 39) pp:12783-12786
Publication Date(Web):September 22, 2016
DOI:10.1021/jacs.6b08664
The synthesis of 11a,25a-dibora-11,12,25,26-tetraoxatetranaphtho[1,2-a:2′,1′-f:1″,2″-j:2‴,1‴-o]perylene, a double [7]heterohelicene containing OBO units, has been achieved via tandem demethylation-borylation, representing the highest double helicene reported thus far with all six-membered rings. Single-crystal X-ray analysis clearly demonstrated a significantly twisted structure with the terminal aromatic rings overlapping at both ends, giving the first example of a double helicene with intramolecular π-layers. Such structural features resulted in a high theoretical isomerization barrier of 45.1 kcal/mol, which is the highest value for all the double helicenes ever reported, rendering the achieved molecule with high chiral stability. The (P,P)- and (M,M)-isomers were separated by chiral HPLC and the chiroptical properties were investigated, revealing opposite circular dichroism responses.
Co-reporter:Xiao-Ye Wang, Fang-Dong Zhuang, Xin-Chang Wang, Xiao-Yu Cao, Jie-Yu Wang and Jian Pei
Chemical Communications 2015 vol. 51(Issue 21) pp:4368-4371
Publication Date(Web):09 Jan 2015
DOI:10.1039/C4CC10105G
The parent skeleton of BN heterocoronene with three BN units and C3 symmetry was synthesized as a model compound of BN-doped graphene. Further investigation of this graphene-type molecule revealed the important role of BN doping in opening the bandgap and modulating the electronic properties.
Co-reporter:Ru-Qiang Lu, Yi-Nyu Zhou, Xiao-Yun Yan, Ke Shi, Yu-Qing Zheng, Ming Luo, Xin-Chang Wang, Jian Pei, Haiping Xia, Laura Zoppi, Kim K. Baldridge, Jay S. Siegel and Xiao-Yu Cao
Chemical Communications 2015 vol. 51(Issue 9) pp:1681-1684
Publication Date(Web):04 Dec 2014
DOI:10.1039/C4CC08451A
For the first time, electron-rich thiophene units were fused into the skeleton of corannulene to extend π-surfaces and tune arrangement in single crystals. Two isomeric butterfly-like thiophene-fused dibenzo[a,g]corannulenes (3 and 5) were synthesized. Isomer 3 showed p-type transport properties, with a hole mobility of 0.06 cm2 V−1 s−1.
Co-reporter:Rui Chen, Ru-Qiang Lu, Ke Shi, Fan Wu, Hong-Xun Fang, Zhe-Xuan Niu, Xiao-Yun Yan, Ming Luo, Xin-Chang Wang, Chi-Yuan Yang, Xiao-Ye Wang, Binbin Xu, Haiping Xia, Jian Pei and Xiao-Yu Cao
Chemical Communications 2015 vol. 51(Issue 72) pp:13768-13771
Publication Date(Web):21 Jul 2015
DOI:10.1039/C5CC03550C
Electron-deficient corannulene derivatives incorporating cyano and imide groups into the corannulene core were synthesized, which showed low LUMO (lowest unoccupied molecular orbital) levels and dense convex–concave packing structures in single crystals. These two features help to realize the first n-channel organic field-effect transistors (OFETs) in air based on corannulene derivatives.
Co-reporter:Yu Wang, Hai-Xin Lin, Liang Chen, Song-Yuan Ding, Zhi-Chao Lei, De-Yu Liu, Xiao-Yu Cao, Hao-Jun Liang, Yun-Bao Jiang and Zhong-Qun Tian
Chemical Society Reviews 2014 vol. 43(Issue 1) pp:399-411
Publication Date(Web):24 Sep 2013
DOI:10.1039/C3CS60212E
One important objective of molecular assembly research is to create highly complex functional chemical systems capable of responding, adapting, and evolving. Compared with living systems, the synthetic systems are still rather primitive and are far from realizing those features. Nature is by far the most important source of inspiration for designing and creating such systems. In this critical review, we summarize an alternative approach, inspired by catalysis, to examine and describe some molecular assembly processes. A new term, “catassembly,” is suggested to refer to the increase in the rate and control of a molecular assembly process. This term combines the words “catalysis” and “assembly,” and identifiably retains the Greek root “cat-” of catalysis. The corresponding verb is “catassemble” and the noun is “catassembler”, referring to the “helper” species. Catassembly in molecular assembly is a concept that is analogous to catalysis in chemical synthesis. After using several examples to illustrate the characteristics of catassembly, we discuss future methodological and theoretical developments. We also emphasize the significance of the synergy between chemical synthesis and molecular assembly, especially for hierarchical assembly systems. Because most efforts in the field of molecular assembly have been devoted to the design and synthesis of molecular building blocks, we wish to stress the apparently missing yet critical link to complex chemical systems, i.e., the design and utilization of molecular catassemblers to facilitate the formation of functional molecular assemblies from building blocks with high efficiency and selectivity. This rational control and accelerated method will promote the systems chemistry approach, and may expand the spectrum of molecular assembly from basic science to applications.
Co-reporter:Xiao-Ye Wang ; Fang-Dong Zhuang ; Rui-Bo Wang ; Xin-Chang Wang ; Xiao-Yu Cao ; Jie-Yu Wang ;Jian Pei
Journal of the American Chemical Society 2014 Volume 136(Issue 10) pp:3764-3767
Publication Date(Web):March 2, 2014
DOI:10.1021/ja500117z
A straightforward strategy has been used to construct large BN-embedded π-systems simply from azaacenes. BN heterosuperbenzene derivatives, the largest BN heteroaromatics to date, have been synthesized in three steps. The molecules exhibit curved π-surfaces, showing two different conformations which are self-organized into a sandwich structure and further packed into a π-stacking column. The assembled microribbons exhibit good charge transport properties and photoconductivity, representing an important step toward the optoelectronic applications of BN-embedded aromatics.
Co-reporter:Ru-Qiang Lu, Yu-Qing Zheng, Yi-Nyu Zhou, Xiao-Yun Yan, Ting Lei, Ke Shi, Yan Zhou, Jian Pei, Laura Zoppi, Kim K. Baldridge, Jay S. Siegel and Xiao-Yu Cao
Journal of Materials Chemistry A 2014 vol. 2(Issue 48) pp:20515-20519
Publication Date(Web):28 Oct 2014
DOI:10.1039/C4TA05310A
Corannulene derivatives were used in organic solar cells for the first time. Using Cor-PI and Cor-NI as acceptors, we achieved power conversion efficiencies up to 0.32% and 1.03%, suggesting potential applications of these fullerene segments as non-fullerene acceptors.
Co-reporter:Ru-Qiang Lu, Wei Xuan, Yu-Qing Zheng, Yi-Nyu Zhou, Xiao-Yun Yan, Jin-Hu Dou, Rui Chen, Jian Pei, Wengui Weng and Xiao-Yu Cao
RSC Advances 2014 vol. 4(Issue 100) pp:56749-56755
Publication Date(Web):10 Oct 2014
DOI:10.1039/C4RA11824C
For the first time, the corannulene unit was incorporated directly into the backbone of conjugated polymers. A new donor–acceptor (D–A) copolymer PICBT using imide-fused corannulene as acceptor was synthesized and its performance in organic field-effect transistors (OFETs) was tested. PICBT exhibited ambipolar transporting property with a hole mobility of 0.025 cm2 V−1 s−1 and electron mobility of 7.45 × 10−5 cm2 V−1 s−1 when the substrates were treated with octyltrimethoxysilane (OTS). If the substrates were not modified with OTS, PICBT showed lower device performances with a hole mobility of 4.62 × 10−3 cm2 V−1 s−1 and electron mobility of 1.54 × 10−4 cm2 V−1 s−1. The device performances are competitive among the amorphous materials. This work paved the way for incorporating the corannulene unit into conjugated materials.
Co-reporter:Congqing Zhu;Qin Zhu;Jinglan Fan;Dr. Jun Zhu;Dr. Xumin He;Dr. Xiao-Yu Cao;Dr. Haiping Xia
Angewandte Chemie 2014 Volume 126( Issue 24) pp:6346-6350
Publication Date(Web):
DOI:10.1002/ange.201403245
Abstract
Aromaticity is one of the most important concepts in organic chemistry. A variety of metalla-aromatic compounds have been recently prepared and in most of those examples, the metal participates only in a monocyclic ring. In contrast, metal-bridged bicyclic aromatic molecules, in which a metal is shared between two aromatic rings, have been less developed. Herein, we report the first metal-bridged tricyclic aromatic system, in which the metal center is shared by three aromatic five-membered rings. These metalla-aromatics are formed by reaction between osmapentalyne and arene nucleophiles. Experimental results and theoretical calculations reveal that the three five-membered rings around the osmium center are aromatic. In addition, the broad absorption bands in the UV/Vis absorption spectra of these novel aromatic systems cover almost the entire visible region. This straightforward synthetic strategy may be extended to the synthesis of other metal-bridged polycyclic aromatics.
Co-reporter:Congqing Zhu;Qin Zhu;Jinglan Fan;Dr. Jun Zhu;Dr. Xumin He;Dr. Xiao-Yu Cao;Dr. Haiping Xia
Angewandte Chemie International Edition 2014 Volume 53( Issue 24) pp:6232-6236
Publication Date(Web):
DOI:10.1002/anie.201403245
Abstract
Aromaticity is one of the most important concepts in organic chemistry. A variety of metalla-aromatic compounds have been recently prepared and in most of those examples, the metal participates only in a monocyclic ring. In contrast, metal-bridged bicyclic aromatic molecules, in which a metal is shared between two aromatic rings, have been less developed. Herein, we report the first metal-bridged tricyclic aromatic system, in which the metal center is shared by three aromatic five-membered rings. These metalla-aromatics are formed by reaction between osmapentalyne and arene nucleophiles. Experimental results and theoretical calculations reveal that the three five-membered rings around the osmium center are aromatic. In addition, the broad absorption bands in the UV/Vis absorption spectra of these novel aromatic systems cover almost the entire visible region. This straightforward synthetic strategy may be extended to the synthesis of other metal-bridged polycyclic aromatics.
Co-reporter:Ting Lei;Jin-Hu Dou;Xiao-Yu Cao;Jie-Yu Wang;Jian Pei
Advanced Materials 2013 Volume 25( Issue 45) pp:6589-6593
Publication Date(Web):
DOI:10.1002/adma.201302278
Co-reporter:Qianyi Zhao;Dr. Xiao-Yu Cao;Dr. Ting Bin Wen ;Dr. Haiping Xia
Chemistry – An Asian Journal 2013 Volume 8( Issue 1) pp:269-275
Publication Date(Web):
DOI:10.1002/asia.201200872
Abstract
Osmium hydrido vinylidene 1 shows diverse cyclization reactivity with activated terminal alkynes. Treatment of 1 with HCCCOR′ (R′=OEt and Me) gave osmafurans 3 a and 3 b via osmium alkenyl/vinylidenes 2 a and 2 b. In addition, 1 reacted with HCCCH(OH)CCH to yield osmabenzene 4, in which the alkynol acted as a C5 fragment to cyclize with 1. Mechanistic analysis indicates that these reactions and the previous formal [3+3] cycloadditions between 1 and HCCCH(OH)R (R=Ph, Et, and vinyl) or HCCCH(OEt)2 all go through similar osmabutadiene intermediates. Subsequently, the intermediates either took a “coordination and cyclization” process or a “carbon–carbon coupling” path to cyclization, depending on the coordination ability of substituents on the terminal alkenyl carbon atom.
Co-reporter:Bin Liu;QianYi Zhao;HuiJuan Wang;BiRong Zeng
Science China Chemistry 2013 Volume 56( Issue 8) pp:1105-1111
Publication Date(Web):2013 August
DOI:10.1007/s11426-013-4876-y
We studied the reactivity of an osmium vinyl complex containing a coordinated hydroxyl group OsCl2(PPh3)2[CH=C(PPh3)-CHPh(OH)] (1) toward bidentate ligand 1,4-bis(diphenylphosphino)butane (DPPB), π acid ligand (CO), base (Cs2CO3) and heat. Two osmium vinyl complexes OsCl2(dppb)[CH=C(PPh3)CHPh(OH)] (2) and OsCl2(CO)2(PPh3)[CH=C(PPh3)CHPh(OH)] (3), as well as two relatively rare phosphonium-containing osmafuran complexes Os(η2-OCOO)(PPh3)2[CHC(PPh3)CPhO] (4) and OsCl2(PPh3)2[CHC(PPh3)CPhO] (5), were obtained in high yields from these reactions. All products were characterized by NMR spectroscopy, elemental analysis, and their structures were further confirmed by single crystal X-ray diffraction.
Co-reporter:Qianyi Zhao;Jun Zhu;Zi-Ao Huang;Dr. Xiao-Yu Cao;Dr. Haiping Xia
Chemistry - A European Journal 2012 Volume 18( Issue 37) pp:11597-11603
Publication Date(Web):
DOI:10.1002/chem.201201558
Abstract
We report herein the first example of the conversion of metallabenzyne II and isometallabenzene III. The osmium hydride vinylidene complex 1 reacts with HCCCH(OEt)2 to give osmabenzyne 3 via isoosmabenzene 2. Compound 3 exhibits high thermal stability in air. Nonetheless, nucleophilic attack at 3 provides isoosmabenzenes 4 a and 4 b, or opens the ring to produce 5 a and 5 b. We propose mechanisms to disclose the intrinsic connection between the six-membered metallacycles, and carry out DFT calculations to rationalize the regioselectivity of the nucleophilic addition reactions.
Co-reporter:Qianyi Zhao;Jun Zhu;Zi-Ao Huang;Dr. Xiao-Yu Cao;Dr. Haiping Xia
Chemistry - A European Journal 2012 Volume 18( Issue 37) pp:
Publication Date(Web):
DOI:10.1002/chem.201290159
Co-reporter:Ting Lei ; Jin-Hu Dou ; Xiao-Yu Cao ; Jie-Yu Wang ;Jian Pei
Journal of the American Chemical Society () pp:
Publication Date(Web):May 15, 2013
DOI:10.1021/ja403624a
Poly(p-phenylene vinylene) derivatives (PPVs) are one of the most widely investigated p-type polymers in organic electronics. PPVs generally exhibit electron mobilities lower than 10–4 cm2 V–1 s–1, thus hindering their applications in high-performance polymer field-effect transistors and organic photovoltaics. Herein, we design and synthesize a novel electron-deficient PPV derivative, benzodifurandione-based PPV (BDPPV). This new PPV derivative displays high electron mobilities up to 1.1 cm2 V–1 s–1 under ambient conditions (4 orders of magnitude higher than those of other PPVs), because it overcomes common defects in PPVs, such as conformational disorder, weak interchain interaction, and a high LUMO level. BDPPV represents the first polymer that can transport electrons over 1 cm2 V–1 s–1 under ambient conditions.
Co-reporter:Ru-Qiang Lu, Yi-Nyu Zhou, Xiao-Yun Yan, Ke Shi, Yu-Qing Zheng, Ming Luo, Xin-Chang Wang, Jian Pei, Haiping Xia, Laura Zoppi, Kim K. Baldridge, Jay S. Siegel and Xiao-Yu Cao
Chemical Communications 2015 - vol. 51(Issue 9) pp:NaN1684-1684
Publication Date(Web):2014/12/04
DOI:10.1039/C4CC08451A
For the first time, electron-rich thiophene units were fused into the skeleton of corannulene to extend π-surfaces and tune arrangement in single crystals. Two isomeric butterfly-like thiophene-fused dibenzo[a,g]corannulenes (3 and 5) were synthesized. Isomer 3 showed p-type transport properties, with a hole mobility of 0.06 cm2 V−1 s−1.
Co-reporter:Ru-Qiang Lu, Yu-Qing Zheng, Yi-Nyu Zhou, Xiao-Yun Yan, Ting Lei, Ke Shi, Yan Zhou, Jian Pei, Laura Zoppi, Kim K. Baldridge, Jay S. Siegel and Xiao-Yu Cao
Journal of Materials Chemistry A 2014 - vol. 2(Issue 48) pp:NaN20519-20519
Publication Date(Web):2014/10/28
DOI:10.1039/C4TA05310A
Corannulene derivatives were used in organic solar cells for the first time. Using Cor-PI and Cor-NI as acceptors, we achieved power conversion efficiencies up to 0.32% and 1.03%, suggesting potential applications of these fullerene segments as non-fullerene acceptors.
Co-reporter:Rui Chen, Ru-Qiang Lu, Ke Shi, Fan Wu, Hong-Xun Fang, Zhe-Xuan Niu, Xiao-Yun Yan, Ming Luo, Xin-Chang Wang, Chi-Yuan Yang, Xiao-Ye Wang, Binbin Xu, Haiping Xia, Jian Pei and Xiao-Yu Cao
Chemical Communications 2015 - vol. 51(Issue 72) pp:NaN13771-13771
Publication Date(Web):2015/07/21
DOI:10.1039/C5CC03550C
Electron-deficient corannulene derivatives incorporating cyano and imide groups into the corannulene core were synthesized, which showed low LUMO (lowest unoccupied molecular orbital) levels and dense convex–concave packing structures in single crystals. These two features help to realize the first n-channel organic field-effect transistors (OFETs) in air based on corannulene derivatives.
Co-reporter:Yu Wang, Hai-Xin Lin, Liang Chen, Song-Yuan Ding, Zhi-Chao Lei, De-Yu Liu, Xiao-Yu Cao, Hao-Jun Liang, Yun-Bao Jiang and Zhong-Qun Tian
Chemical Society Reviews 2014 - vol. 43(Issue 1) pp:NaN411-411
Publication Date(Web):2013/09/24
DOI:10.1039/C3CS60212E
One important objective of molecular assembly research is to create highly complex functional chemical systems capable of responding, adapting, and evolving. Compared with living systems, the synthetic systems are still rather primitive and are far from realizing those features. Nature is by far the most important source of inspiration for designing and creating such systems. In this critical review, we summarize an alternative approach, inspired by catalysis, to examine and describe some molecular assembly processes. A new term, “catassembly,” is suggested to refer to the increase in the rate and control of a molecular assembly process. This term combines the words “catalysis” and “assembly,” and identifiably retains the Greek root “cat-” of catalysis. The corresponding verb is “catassemble” and the noun is “catassembler”, referring to the “helper” species. Catassembly in molecular assembly is a concept that is analogous to catalysis in chemical synthesis. After using several examples to illustrate the characteristics of catassembly, we discuss future methodological and theoretical developments. We also emphasize the significance of the synergy between chemical synthesis and molecular assembly, especially for hierarchical assembly systems. Because most efforts in the field of molecular assembly have been devoted to the design and synthesis of molecular building blocks, we wish to stress the apparently missing yet critical link to complex chemical systems, i.e., the design and utilization of molecular catassemblers to facilitate the formation of functional molecular assemblies from building blocks with high efficiency and selectivity. This rational control and accelerated method will promote the systems chemistry approach, and may expand the spectrum of molecular assembly from basic science to applications.
Co-reporter:Xiao-Ye Wang, Fang-Dong Zhuang, Xin-Chang Wang, Xiao-Yu Cao, Jie-Yu Wang and Jian Pei
Chemical Communications 2015 - vol. 51(Issue 21) pp:NaN4371-4371
Publication Date(Web):2015/01/09
DOI:10.1039/C4CC10105G
The parent skeleton of BN heterocoronene with three BN units and C3 symmetry was synthesized as a model compound of BN-doped graphene. Further investigation of this graphene-type molecule revealed the important role of BN doping in opening the bandgap and modulating the electronic properties.
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