Chiral doping of nematic phases and its application to the determination of absolute configuration

Doping nematic liquid crystals with nonracemic chiral compounds induces a twisted nematic (cholesteric) phase. The ability of solutes to twist the nematic phase may be related to the overall shape of the chiral dopant and consequently to its absolute configuration. The cholesteric induction is therefore a powerful tool complementary to chiroptical techniques to obtain stereochemical information on chiral molecules.     

Coupled external cavity photonic crystal enhanced fluorescence

We report a fundamentally new approach to enhance fluorescence in which surface adsorbed fluorophore‐tagged biomolecules are excited on a photonic crystal surface that functions as a narrow bandwidth and tunable mirror of an external cavity laser. This scheme leads to ～10× increase in the electromagnetic enhancement factor compared to ordinary photonic crystal enhanced fluorescence. In our experiments, the cavity automatically tunes its lasing wavelength to the resonance wavelength of the photonic crystal, ensuring optimal on‐resonance coupling even in the presence of variable device parameters and variations in the density of surface‐adsorbed capture molecules. We achieve ～10⁵× improvement in the limit of detection of a fluorophore‐tagged protein compared to its detection on an unpatterned glass substrate. The enhanced fluorescence signal and easy optical alignment make cavity‐coupled photonic crystals a viable approach for further reducing detection limits of optically‐excited light emitters that are used in biological assays. (© 2014 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)     

Chiral superstructures of insulin amyloid fibrils

Hydrodynamic forces are capable of inducing structural order in dispersed solid phases, and of causing symmetry-breaking when chiral crystals precipitate from an achiral liquid phase. Until it was observed upon vortex-assisted fibrillation of insulin, such behavior had been thought to be confined to few unbiological systems. In this paper we are discussing chiroptical properties of two chiral variants of insulin amyloid, termed +ICD and -ICD, which form during the process of chiral bifurcation in vortexed solutions of aggregating insulin. As conventional measurements of circular dichroism of solid, anisotropic substances are particularly vulnerable to overlapping influences of linear birefringence and linear dichroism, we have employed complementary tools including dedicated universal chiroptical spectrophotometer to rule out such artifacts. We propose that the strong chiroptical properties of +ICD and -ICD insulin fibrils are an aspect of genuine superstructural chirality of amyloid fibrils and of powerful excitonic couplings taking place within them. A comparison of thioflavin T complexes with fibrils formed by insulin and polyglutamic acid suggests that the extrinsic Cotton effect stemming from the level of single twisted dye molecules is weaker, although diagnostically useful, and cannot account for the overall magnitude of ICD of the dye bound to ±ICD insulin amyloid.     

Design and synthesis of chiral spirobifluorenes

Chiroptical spectroscopic methods serve as a practical tool for the structural characterization of chiral systems based on the interaction with polarized light. The higher sensitivity of these methods, compared with their achiral counterparts, not only enables the determination of absolute configuration and conformational preferences, but also supramolecular interactions may be monitored. In order to expand the applicability of chiroptical systems, the development of functional materials exhibiting intense chiroptical responses is essential. As a proof of principle, we previously constructed chiroptical interfaces via thioacetate-derivatized allenes. Because of the photoisomerization issues associated with allenes, we have recently proposed their replacement by spirobifluorenes to achieve robust chiroptical systems. Thus, we hereby present the design and synthesis of chiral spirobifluorenes bearing thioacetates suitable for suface functionalization.     

Chiroptical Studies on Supramolecular Chirality of Molecular Aggregates

The attempts of applying chiroptical spectroscopy to supramolecular chirality are reviewed with a focus on vibrational circular dichroism (VCD). Examples were taken from gels, solids, and monolayers formed by low‐molecular mass weight chiral gelators. Particular attention was paid to a group of gelators with perfluoroalkyl chains. The effects of the helical conformation of the perfluoroalkyl chains on the formation of chiral architectures are reported. It is described how the conformation of a chiral gelator was determined by comparing the experimental and theoretical VCD spectra together with a model proposed for the molecular aggregation in fibrils. The results demonstrate the potential utility of the chiroptical method in analyzing organized chiral aggregates. Chirality 27:659–666, 2015. © 2015 Wiley Periodicals, Inc.     

Semipreparative HPLC enantioseparation,chiroptical properties,and absolute configuration of two novel cyclooxygenase‐2 inhibitors

A direct semipreparative HPLC enantioseparation of two chiral thiazolidinone derivatives having cyclooxygenase‐2 inhibition activity was performed on the Chiralpak IA chiral stationary phase. Semipreparative amounts of enantiopure forms were collected using acetonitrile‐ethanol‐trifluoroacetic acid mixtures as mobile phase. The absolute configuration of both compounds was unequivocally established by single‐crystal X‐ray diffraction method and correlated to the chiroptical properties of isolated enantiomers. Chirality, 2010. © 2009 Wiley‐Liss, Inc.     

Extending substrate sensing capabilities of zinc tris(2‐pyridylmethyl)amine‐based stereodynamic probe

Tripodal metal complexes have been widely used for catalysis and more recently also for molecular recognition applications. Their ability in recognition and signal amplification of chiral substrates is because of the setup of the ligand around the metal in a propeller shape. Within this subject, we have recently reported tris(2‐pyridylmethyl)amine‐ and triphenolamine‐based complexes for the determination of the enantiomeric excess of various substrates. Herein, we show the versatility of the zinc tris(2‐pyridylmethyl)amine‐based stereodynamic probe by performing a detailed study of the imine formation process, by the extension of the sensing capabilities to other chiral compounds. A principal component analysis study of the system together with TD‐DFT studies highlights the molecular origin of the observed chiroptical properties.     

Circular Dichroism Sensing of Chiral Compounds Using an Achiral Metal Complex as Probe

Coordination of a chiral substrate to (meso‐salen)cobalt(II) nitrate and subsequent oxidation generates a Co(III) complex exhibiting a strong chiroptical readout that is attributed to spontaneous substrate‐to‐ligand chirality imprinting. The characteristic circular dichroism (CD) response of the (salen)cobalt complex can be used for enantiomeric analysis of a variety of chiral substrates based on a simple CD measurement at low concentration and without additional purification steps. This chirality sensing approach has potential for high‐throughput enantiomeric excess (ee) screening applications and minimizes solvent waste production. Chirality 26:379–384, 2014. © 2014 Wiley Periodicals, Inc.     

Chirality responsive helical poly(phenylacetylene) bearing L-proline pendants

A novel, optically active, cis-transoidal poly(phenylacetylene) bearing an L-proline residue as the pendant group (poly-1) was prepared by the polymerization of the corresponding monomer using a rhodium catalyst in water, and its chiroptical property was investigated using circular dichroism spectroscopy. Poly-1 showed intense Cotton effects in the UV-visible region of the polymer backbone in water, resulting from the prevailing one-handed helical conformation induced by the covalent-bonded chiral L-proline pendants and exhibited a unique helix-sense inversion in response to external, achiral, and chiral stimuli, such as the solvent and interactions with chiral small molecules. We found that poly-1 could enantioselectively trap 1,1'-2-binaphthol within its hydrophobic helical cavity inside the polymer in aqueous media and underwent an inversion of its helical sense in the presence of one of the enantiomers. The effect of the optical purity of 1,1'-2-binaphthol on the chiroptical properties of poly-1 was also investigated.     

Role of Stopband and Localized Surface Plasmon Resonance in Raman Scattering from Metallo-Dielectric Photonic Crystals

Self-assembled photonic crystals grown from different colloidal sizes are coated with gold nanoparticles preferentially on their surface. The effect of localized surface plasmon resonance and the photonic stopband on the Raman scattering from these crystals is analyzed from the angle-dependent scattering measurements. The coupling of photonic and plasmonic modes at the surface of the photonic crystal is verified by measuring the increment in Raman scattering from the crystals containing the gold nanoparticles, and this increment is found to follow the spectral trend of localized surface plasmon resonance.     

Specific optical rotation is a versatile tool for the identification of critical micelle concentration and micellar growth of tartaric acid–based diastereomeric amphiphiles

Four novel tartaric acid–based diastereomeric chiral amphiphiles, two being enantiomers of the other two, have been synthesized and investigated using chiroptical spectroscopic methods, along with tensiometry and dynamic light scattering experiments. We found that an inflection point in specific optical rotation (SOR) values at ~0.32 mM corresponds to the critical micelle concentration (CMC). The increase in magnitude of SOR values beyond CMC corresponds to the growth of aggregates. For enantiomers, oppositely signed SOR values were observed, ruling out the possibility for the presence of aggregation size mediated artefacts. SOR values did not exhibit concentration dependence for a chiral tartaric acid based non‐aggregating analogue further establishing the absence of artefacts or anomalous interaction of tartaric acid based head group with solvent. Electronic circular dichroism spectra showed no significant changes in band positions or intensities with concentration. Due to the requirement for higher concentrations (~200 mM) needed to obtain vibrational circular dichroism spectra, these measurements are not found to be useful for studying concentration dependent properties of chiral amphiphiles.     

Negative refraction angular characterization in one-dimensional photonic crystals

Background

Photonic crystals are artificial structures that have periodic dielectric components with different refractive indices. Under certain conditions, they abnormally refract the light, a phenomenon called negative refraction. Here we experimentally characterize negative refraction in a one dimensional photonic crystal structure; near the low frequency edge of the fourth photonic bandgap. We compare the experimental results with current theory and a theory based on the group velocity developed here. We also analytically derived the negative refraction correctness condition that gives the angular region where negative refraction occurs.

Methodology/Principal Findings

By using standard photonic techniques we experimentally determined the relationship between incidence and negative refraction angles and found the negative refraction range by applying the correctness condition. In order to compare both theories with experimental results an output refraction correction was utilized. The correction uses Snell''s law and an effective refractive index based on two effective dielectric constants. We found good agreement between experiment and both theories in the negative refraction zone.

Conclusions/Significance

Since both theories and the experimental observations agreed well in the negative refraction region, we can use both negative refraction theories plus the output correction to predict negative refraction angles. This can be very useful from a practical point of view for space filtering applications such as a photonic demultiplexer or for sensing applications.     

Recent Advances in Sensing Using Atropoisomeric Molecular Receptors

We describe recent advances in chiroptical chemical sensors, in which the design and implementation is based upon the introduction of atropoisomerically chiral moiety within the molecular skeleton. This report include examples of acyclic, macrocyclic, and polymeric receptors that contain this motif. Although the main applications are in the enantioselective sensing of analytes, we report here some cases where the chiral receptors can in fact be used to senseachiral species. Using circular dichroism (CD) spectroscopy as the technique to detect a receptor–analyte interaction, we can distinguish two main sensor categories: that in which the CD signal of a stereolabile, CD‐silent probe is activated upon binding, and that in which the signal of a CD‐active probe is modulated upon binding. Particular emphasis will be given to cases in which CD spectroscopy is used orthogonally to other means of detection. Chirality 28:116–123, 2016. © 2015 Wiley Periodicals, Inc.     

Apple juice and red wine induced mirror-image circular dichroism in quantum dots

Juices, wines, and extracts from plants contain high concentrations of various chiral compounds such as carboxylic acids or sugars. Several prior studies reported the synthesis of metallic and semiconducting nanoparticles relying on components of complex biological solutions. Herein, we present preparation of chiral CdS and CdSe quantum dots (QDs) using apple juice and red wine via phase transfer ligand exchange. Although both apple juice and red wine contain a complex mixture of chiral and achiral compounds, we have successfully used them for selective induction of predicted chiroptical properties and confirmed L-malic acid from the apple juice and L-tartaric acid from the red wine as the chiral inducers. This work illustrates the capability of using complex mixtures to construct chiral QDs with desired chiroptical properties as well as potential of QDs to selectively report a chiral molecule in a complex chiral mixture without the need for elaborate chiral recognition system.     

Absorption Circular Dichroism Induced by Contorted Electrical Oscillations in Rectangular Nanoholes

The chiroptical response of plasmonic chiral nanostructures can be tuned by combining different structures. In this paper, an L-shaped metal strip is introduced into a rectangular metal nanohole to generate absorption circular dichroism (ACD). The results of a finite-element method calculation show that ACD effects result from contorted electrical oscillations in the L-shaped strip. Additional calculations show that the ACD effects of the proposed metasurface depend strongly on the structure parameters. These findings provide not only a mechanism for enhancing chiroptical responses in planar structures but also a general strategy for the chiral manipulation of light and creation of chiroptical devices.

     

Single-molecule chiroptical spectroscopy: Fluorescence excitation of individual helicene molecules in polymer-supported thin-films

We present results of fluorescence excitation circular dichroism studies of the chiroptical response of single (bridged triarylamine) helicene molecules immobilized at a polymer interface. We extract directly dissymmetry parameters, and corresponding probability distributions, associated with the single-molecule fluorescence excitation associated with modulation of a circular polarized excitation field for three different excitation wavelengths (405, 440, 457 nm) showing circular dichroism in bulk films. The observed single molecule chiroptical response is anomalously large in comparison with the results of time-dependent density functional calculations, and the observed defocused emission patterns seem to indicate a higher multipole nature to the transition probed. Our results provide new insights into chiroptical properties of chiral fluorophores that are hidden under the extensive averaging associated with conventional chiroptical probes.     

Why is it important to simultaneously use more than one chiroptical spectroscopic method for determining the structures of chiral molecules?

In recent years, four different chiroptical spectroscopic methods, namely vibrational circular dichroism, vibrational Raman optical activity, electronic circular dichroism, and optical rotatory dispersion, have become popular for establishing the absolute configuration and predominant conformations of chiral molecules in solution state. Many individual laboratories normally utilize only one of these methods to derive the molecular structural information. Although that approach may be satisfactory for most of the molecules studied, it is to be noted that in some instances a single method can give ambiguous conclusions or may not give complete structural information. This article summarizes the situations where simultaneous use of more than one chiroptical spectroscopic method is required to obtain molecular structural information and recommends the routine application of more than one chiroptical spectroscopic method for any given molecule.     

Study on the Absolute Configurations of 3‐Alkylphthalides using TDDFT Calculations of Chiroptical Properties

Absolute configurations (ACs) of 3‐alkylphthalides including natural products (?)‐3‐n‐butylphthalide ( (S)‐1 ) and fuscinarin have been studied using chiroptical properties and quantum chemical calculation. Electronic circular dichroism and optical rotatory dispersion spectra of (S)‐1 predicted adopting time‐dependent density functional theory and hybrid functionals coincide very well with the experimental and literature data of (S)‐1 , leading unambiguously to AC assignment as S for levorotatory isomer. The relationship between structures and chiroptical properties of 3‐alkylphthalides were also studied using theoretical calculation. It is found that when the alkyl group is adjacent to the single chiral center in the molecule, both the length of the alkyl side chain and the polarity of solvent may exert significant effect on electronic circular dichroism spectra. On the basis of these observations, it is recommended that the long‐chain alkyl group may be replaced by at least propyl instead of methyl group in such compounds. The present work shows that combination of chiroptical properties and ab initio calculations can provide a feasible and reliable way to the AC establishment of novel 3‐alkylphthalide derivatives with a high degree of confidence. Chirality 24:987‐993, 2012. © 2012 Wiley Periodicals, Inc.     

Challenges and frustrations in the separation and analysis of chiral agrochemicals

The development of chiral HPLC methods and isolation techniques within Zeneca Agrochemicals (formerly ICI Agrochemicals) is reviewed. The use of low temperature to improve chiral separations has been successfully applied to production analysis, but although useful for some compounds it is regrettably not a universal panacea for all poor separations. The need to isolate small quantities of individual enantiomers from new compounds for research evaluation has led us to devise a more universal and cheap chiral stationary phase (CSP) for Preparative-LC. Joint academic research produced a CSP based on tartaric acid which was made commercially available and it was gratifying to find it was the only phase able to resolve a novel insecticide. However, as new CSPs emerged almost every month, our attention turned to using a universal chiral detector for analysis, rather than via separation of individual enantiomers. Diode laser-based polarimeters offered the opportunity of cheap, sensitive chiroptical detectors for HPLC and the ability to move away from chiral columns in both research and production analysis. Jointly sponsored research with a university has successfully explored the versatility of chiroptical detectors in agrochemical and food analysis. Comparison of chiral SFC with chiral HPLC and an extensive evaluation of established and research agrochemicals on a wide range of commercial CSPs have led to a revised method development strategy. Current work with high load displacement chiral chromatography will be described as a potential means of isolating pure enantiomers from racemates. © 1994 Wiley-Liss, Inc.