A double hetero[4]helicene composed of two phenothiazines: synthesis, structural properties, and cationic states †

A novel double hetero[4]helicene consisting of two phenothiazines (1) has been synthesized. The racemization barrier of 1 is high enough for optical separation. We successfully obtained the single crystals of the radical cation salt of 1 (cid:2) + , whose torsion angles were decreased compared to those of the neutral state.

to be versatile approach to obtain double helicenes from other heteroacenes having a NH group. In this study, we applied this strategy to the construction of a novel double hetero [4]helicene by using phenothiazines as building blocks.
At first, phenothiazine-dimers were synthesized with a single C-N connection by the already reported dimerization reaction of phenothiazines using a mixture of dimethylsulfoxide (DMSO) and acetic anhydride as the oxidant. 5 In this work, we used 3,7-di-tert-butylphenothiazine (3) as the starting material to prevent the reaction on the most reactive 3 and 7 positions, and obtained the desired 1,10 0 -dimer in 65% yield. However, this reaction requires a long reaction time (about a week). Next, the dimerization of 3 was examined by DDQ oxidation according to our previous work. 14 This approach further improved the yield of 2 up to 78%, as well as provided a short reaction time of several hours (Scheme 1). The oxidation of 2 by a combination of DDQ and Sc(OTf) 3 resulted in the intramolecular C-N bond formation and gave a doubly fused phenothiazine dimer 1. Furthermore, 1 was also obtained in an one-pot manner by using the tandem oxidation of 3 with DDQ followed by DDQ/Sc(OTf) 3 .
The structures of 2 and 1 were determined by X-ray single crystal analysis (Fig. 1). In the crystal state, 2 took a cruciform structure similar to heteropentacene dimers, 14 although both of the phenothiazine units were bent along the S-N axes. As expected, 1 took a double hetero [4]helicene structure, and in a unit cell, two enantiomers ((P,P 0 )-and (M,M 0 )-isomers) existed in the ratio of 1 : 1. The torsion angles in the fjord regions (denoted as y t ) were 31.71 and 39.31, which were larger than those of carbo [5]helicene (ca. 301), 15 reflecting the bent structure of the neutral phenothiazine molecule. The (P,P 0 )-and (M,M 0 )-isomers could interconvert via an Scheme 1 Synthesis of phenothiazine dimers 1 and 2. achiral isomer (mesomer). The energy diagram of this interconversion was calculated using DFT calculations on the model compound 1 0 without tBu groups at the B3LYP/6-31G* level (Fig. S8, ESI †). 16 The step with the highest barrier is the transformation from the chiral to achiral isomers, and the barrier height was calculated to be 118.0 kJ mol À1 . This value is remarkably high compared to the calculated value of dibenzo[a, j ]perylene, which corresponds to the all-carbon analogue of 1 0 (41.5 kJ mol À1 , Fig. S9, ESI †), due to the bent nature of phenothiazine. 17,18 In fact, we achieved the optical resolution of 1 by HPLC using a chiral stationary phase. The obtained two fractions showed mirrorimage circular dichroism (CD) spectra (Fig. 2). Spectral simulations based on time-dependent DFT (TD-DFT) calculations predicted the faster eluting fraction as the (P,P 0 )-isomer, and the slower one as the (M,M 0 )-isomer, respectively (Fig. S20, ESI †). The decay of the CD spectra of 1 obeyed first-order kinetics, and the racemization barrier was determined to be 112.8 kJ mol À1 by the Arrhenius plot of the rate constants at 30, 40, 50, and 60 1C (Fig. S7, ESI †). This value was in good accordance with the theoretical calculations, and higher than that of carbo [5]helicene (101 kJ mol À1 ). 19 We also carried out the theoretical calculations for the analogues of 1 having O and Se instead of S atoms, and found that the analogue with heavier chalcogen atoms has larger torsion angles and a higher inversion barrier ( Fig. S10 and S11, ESI †).
Because 1 and 2 are regarded as dual-electron donor molecules, herein we focus on HOMO and (HOÀ1)MO. For 2 0 , HOMO and (HOÀ1)MO were energetically close with an energy gap of 0.125 eV and completely localized on one side of the two phenothiazine units, resulted from their perpendicular connection (Fig. 3a). On the other hand, for 1 0 , HOMO and (HOÀ1)MO were totally delocalized over the whole molecular skeleton, and the energy gap between these two MOs was increased to 0.613 eV (Fig. 3b).
The redox properties of 1 and 2 were investigated via cyclic voltammetry measurements (Fig. S13, ESI †). 20 For 2, the consecutive oxidation processes of E 1 = 0.187 V and E 2 = 0.296 V (vs. ferrocene/ ferrocenium) were observed, and the potential difference DE = E 2 À E 1 was only 0.109 V, stemming from little electronic communication between two phenothiazine moieties of 2. For 1, on the other hand, the potentials of E 1 (0.023 V) and E 2 (0.655 V) markedly separated and DE was significantly increased to 0.632 V. This large DE value clearly indicates the increased electronic communication between two phenothiazine moieties in 1 by ring-fusion. The E 1 value of 1 was lower than that of 2 by 0.164 V, suggesting the good electron donor properties of 1.
The UV-Vis-NIR absorption spectral changes of 1 during electrochemical oxidation were measured (Fig. 4). Upon oxidation, a low energy absorption band with a peak top at 0.83 eV (1500 nm) appeared, in addition to the band at 2.28 eV (545 nm) corresponding to the absorption of the radical cation   View Article Online of phenothiazines. 8,21 The low energy band in the NIR region could be ascribed to the charge-resonance band between two fused phenothiazine units, judging from the TD-DFT calculations of 1 0+ (Fig. S16, ESI †). 22 By applying higher voltage, the spectral shape was continuously changed with isosbestic points, according to the simple 1 electron oxidation process from 1 + to 1 2+ without the formation of any significant byproducts. Motivated by the results of electrochemical measurements, we tried to isolate cation salts of 1 and 2 by chemical oxidation. The single crystals of a radical cation salt of 1 + was obtained as red-purple needles by slow evaporation of a CH 2 Cl 2 /hexane solution of 1 oxidized with 1 equiv. of tris(4-bromophenyl) aminium hexachloroantimonate (magic blue). The X-ray crystal analysis revealed the structure of 1 + (Fig. 5). The dihedral angles in the fjord regions of 1 + were smaller compared with those of the neutral 1. This shrinkage of the helical pitches are ascribed to the increase of planarity of two phenothiazine units upon oxidation. 17,18 The average length of the two C-N bonds connecting two phenothiazine moieties also became shorter than that of 1. In the crystal of 1 + SbCl 6 À , a SbCl 6 À anion existed on a saddle-shaped 1 + , as shown in Fig. 5c. The radical cation 1 + is stable under ambient conditions both in the solution and the solid state, and the absorption spectrum of the CH 2 Cl 2 solution remained unchanged after 2 weeks under air and room light (Fig. S17, ESI †). The ESR spectrum of 1 + in CH 2 Cl 2 at 298 K showed a five-line splitting, which is mainly attributed to the hyperfine coupling interactions from two equivalent nitrogen nuclei (|a N | = 0.58 mT) (Fig. 6). This result indicates that the generated radical spin is equally delocalized over the two phenothiazine moieties. Oxidation of 1 with more than 2 equiv. of magic blue did not give the crystals of 1 2+ [SbCl 6 À ] 2 , because of the high second oxidation potential of 1 comparable to the formal potential of magic blue. 23 For 2, the chemical oxidation with magic blue gave the crystals of doubly oxidized species, 2 2+ [SbCl 6 À ] 2 , even when treated with 1 equiv. of oxidant because of the disproportionation reaction. The structure of 2 2+ was also shown by the X-ray analysis (Fig. S14, ESI †). The dication 2 2+ maintained a cruciform orientation, and both the two phenothiazine moieties took more planar structure compared to the neutral 2.
In summary, we have synthesized for the first time the doubly fused phenothiazine dimer 1 with a double hetero [4]helicene structure by using the tandem oxidation of the phenothiazine derivative via the singly connected dimer 2. Although double [4]helicenes usually racemize quickly, the enantiomers of 1 were much more stable toward racemization stemming from the highly bent structure of phenothiazine. Both 1 and 2 exhibited good electron donor properties, and the chemical oxidation of these dimers gave the radical cations stable enough to be isolated. X-ray single-crystal analysis clarified the structures of 1 + and 2 2+ . The torsion angles in the fjord regions of 1 + were found to be decreased compared with those in the neutral state. The generated spin of 1 + was fully delocalized over the double [4]helicene skeleton. Further studies on analogues of 1 with other heteroatoms are currently underway.  . Thermal ellipsoids are set at 50% probability. The tBu groups and hydrogen atoms were omitted for clarity. Fig. 6 ESR spectrum of 1 + (g = 2.0038) in CH 2 Cl 2 at 298 K.