Cocoa Butter Structure Determined by Simultaneous SAXS/WAXS

Simultaneous SAXS/WAXS measurements were performed on cocoa butter to investigate the evolution of the lipid phases under thermal treatment

Cocoa butter is a highly polymorphic compound exhibiting up to six crystalline forms of glycerides¹ (fatty acids), each defined by different stability and melting point. Each of these structures induce different properties in terms of taste, texture and appearance². The most desired crystal form in terms of sensory experience is the V form which results in products that:

have a smooth texture,
have a shiny appearance,
are solid at room temperature producing an audible snap when broken but melt in the mouth
do show significant white blooming.

But unfortunately the V form is not the most stable of the six polymorphs. Thus, in order to acquire the most stable polymorphs in chocolate products, a controlled crystallization called tempering is employed during the manufacturing process.

The most widely used tempering method involves the following 4-steps sequence:

Complete melting of the chocolate to the point that all fat crystals are molten
Decreasing the temperature to promote crystallization
Waiting time to allow crystallization of both stable and unstable polymorphs
Rising back the temperature up to the melting point of unstable crystals (stable polymorphs tend to have higher melting points than unstable ones).

Subsequently, upon further reduction of the temperature down to room temperature the stable crystals will act as seeds in the process and promote bulk crystallization of the cocoa butter into a stable form. Thermal history thus has a direct influence on the final crystalline phase which is in turn directly related to the sensory experience.

Simultaneous SAXS and WAXS is a powerful technique for the identification of the morphology of crystalline phases as a function of temperature. In this Application Note, we investigate the out-of-equilibrium nanostructure of cocoa butter as a function of varying temperature, mimicking part of a tempering process.

References:

¹Beckett, Steve T., ed. Industrial chocolate manufacture and use. John Wiley & Sons, 2011.

²Le Révérend, Benjamin J. D., Fryer Peter J., Coles Simon, and Bakalis Serafim. “A method to qualify and quantify the crystalline state of cocoa butter in industrial chocolate.” Journal of the American Oil Chemists’ Society 87, no. 3 (2010): 239-246.


Model	Detailed specifications
Synchrotron scatterless slits (♦)	Please contact us for any technical information Discover what our customers say about it!
X-ray alignment camera (♦)	Please contact us for any technical information
Pin Diode detector (♦)	Please contact us for any technical information
Beam stop with integrated Pin Diode	Please contact us for any technical information


Mirror type	Figure	Optic efficiency (calculated over mirror length for 70µm source)
Standard Montel mirrors		Eff = 42%
Xenocs FOX 3D mirrors		Eff = 62%


Model	Beam size at focus (mm) with 60 µm source	Divergence (mrad)	Typical application
FOX 3D Cu 14-39 (♦)	0.19 x 0.19	5.4	Protein crystallography (♦) Powder diffraction
FOX 3D Cu 12-53	0.3 x 0.3	3	Protein crystallography (Long Unit Cells) Powder diffraction
FOX 3D Mo 10-31	0.13 x 0.13	4	Small molecule crystallography High pressure diffraction
FOX 3D Ag 10-30	0.13 x 0.13	3	Small molecule crystallography High pressure diffraction
FOX 3D Cr 8-30	0.20 x 0.20	6	Protein crystallography (S-SAD) Stress analysis
FOX 1D Cu 12-53	0.3	3	XRD, Powder Diffraction


Model	Beam size at focus (mm) with 60 µm source	Divergence (mrad)	Typical application
FOX 2D Mo 25-25 (♦)	0.08 x 0.08	5	Small mollecule crystallography High pressure crystallography
FOX 2D Cu 25-25 (♦)	0.08 x 0.08	5.3	Protein crystallography (♦) Micro Diffraction, Reflectometry
FOX 3D Cu 21-21 HC (♦)	0.08 x 0.08	70 x 35	Rapid x-ray Reflectometry (full beam) Scanning x-ray Reflectometry (with slit) Micro-XRF
FOX 3D Cu 28-10	0.04 x 0.04	17	Stress Analysis, Micro-diffraction, Micro-XRF
FOX 3D Cr 30-8	0.04 x 0.04	17	Stress Analysis, Micro-diffraction, Micro-XRF


Model	Beam size at focus (mm) with 60 µm source	Divergence (mrad)	Typical application
FOX 2D Cu 12-INF (♦)	1.2 x 1.2	1	Small angle x-ray scattering (♦) High resolution x-ray diffraction (♦) Surface scattering (♦) Thin film analysis (reflectometry stress) (♦) Microdiffraction on synchrotron (♦)
FOX 2D Mo 25-INF (♦)	0.85 x 1.3	0.5	Small angle x-ray scattering High resolution x-ray diffraction Surface scattering
FOX 2D 12-60 L (♦)	0.18 x 0.2	0.5 x 2	High resolution diffraction Small sample analysis
FOX 1D Cu 12-INF (♦)	1.2	0.8	High resolution x-ray diffraction, Powder diffraction, Reflectometry, Small angle x-ray scattering

Fast thermal studies of cocoa butter

Simultaneous SAXS/WAXS measurements were performed on cocoa butter to investigate the evolution of the lipid phases under thermal treatment

References:

¹Beckett, Steve T., ed. Industrial chocolate manufacture and use. John Wiley & Sons, 2011.

²Le Révérend, Benjamin J. D., Fryer Peter J., Coles Simon, and Bakalis Serafim. “A method to qualify and quantify the crystalline state of cocoa butter in industrial chocolate.” Journal of the American Oil Chemists’ Society 87, no. 3 (2010): 239-246.

See other applications notes

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Element of interest	Reference
O, F, Na, Mg, Al, Si, P, S	XAN-1
Nitrogen	XAN-2
Carbon	XAN-3
Boron	XAN-4
Mg, Al , Si	XAN-5
Be	XAN-6


Model	Beam size at focus (µm)	Divergence (mrad)	Flux (ph/sec)	Typical application
GeniX 3D Cu High Flux *	< 190	6	> 400 x 10⁶	Protein crystallography Micro stress analysis Powder diffraction
GeniX 3D Mo High Flux	< 130	5	> 25 x 10⁶	Small Molecule crystallography High pressure
GeniX 3D Cr High Flux	< 190	6	> 300 x 10⁶	Stress Analysis
GeniX 3D Cu High Convergence *	60	70 x 35	> 400 x 10⁶	Rapid X-ray Reflectometry (full beam) Scanning x-ray reflectometry (with slit) Micro x-ray fluorescence Small spot diffraction on thin film
GeniX 3D Cu Low Convergence *	< 250	3	> 120 x 10⁶	Small Angle X-ray Scattering Protein Crystallography



Source	Microfocus sealed tube: Cu, 30W/30µm, point focus. ( DIN EN 12543-5) MetalJet source D2+ (Ga). Motorized Dual source or triple source (Cu/Mo/Cr/Ga).
Optics	Patented 2D single reflection multilayer optics.
Detector	In-vacuum motorized 3-axis detectors for 2D SAXS/WAXS (Q-Xoom): --Pilatus3 R 300K hybrid photon counting detector --Eiger2 R (1M, 4M) hybrid photon counting detectors Optional WAXS detectors for SWAXS: --Pilatus3 R 100K hybrid photon counting detector --Motorized 3-axis Eiger2 R 500K hybrid photon counting detector
Sample chamber	Large vacuum chamber. On-axis sample viewing (parallax free). Attachments for operation of sample in air.
Key features	Clean Beam technology: high flux and low background beamline. Beamstopless measurement: SAXS acquisition continuously without any beamstop. Q-Xoom: Automatic change of measurement configuration over all instrument Q-range with no movement of sample measuring position. Virtual detector mode: surfaces of detection > 200 mm² x 200 mm².
Measurement capability	Nanoparticles size up to 300 nm, 500 nm or 900 nm in diameter depending on Xeuss model. Nanoparticles size up to > 2.5 microns with optional motorized Bonse-Hart module for automatic sequential USAXS/SAXS/WAXS measurements. Scattering measurements up to 2Ɵ>70° with Q-Xoom. Qmax > 49 nm^-1
Sample environment	Standard holders (multi-samples): solids, capillaries, powders. Sample holders for powders and gels. Flowcells for liquids: --- Low noise flowcell --- Capillary flowcell --- Automatic Sample Changer --- BioCube measuring cell with dynamic monitoring (compatible with pipetting robot) Temperature stages: --- Multi-purpose X-Ray Temperature Stage (-30°C to 150°C) --- High temperature sample stage (-150°C to 350°C) --- Extended high temperature sample stage (amb - 1000°C) Tensile Stage (00-600N). Humidity stage (10%-90% from ambient to 60°C). Shear stage Temperature compatible GiSAXS stage Other sample stages available under request
Software	Acquisition software with automatic data reduction in absolute units and live data display. XSACT (X-ray Scattering Analysis and Calculation Tool) for data analysis and interpretation.
General parameters	Models & Footprint : Xeuss 3.0 C (1 m x 3 m), HR (1 m x 5 m), UHR (1 m x 8 m). Maximum power consumption: < 3000 W (single phase power)



Source and optics	Microfocus sealed tube: Cu, 30W/30µm, point focus. ( DIN EN 12543-5) Patented 2D single reflection multilayer optics.
Detector	Dectris Pilatus 3 hybrid photon counting detectors. Two fixed detectors for continuously and simultaneously. SAXS and WAXS acquisition up to 2θ=60°.
Beam Path	Windowless beam path entirely under vacuum from beam delivery system to detector sensor
Key features	Clean Beam technology: high flux and low background beamline. Beamstopless measurement: SAXS acquisition continuously without any beamstop. Virtual detector mode: > 200° azimuth coverage with rotation of sample.
Measurement capability	Nanoparticles size up to 250 nm in diameter.
Sample environment	Standard holders: solids, capillaries, powders. Sample holders for powders and gels. Flow cells for liquids: --- Low noise flow cell --- Capillary flow cell Automatic Sample Changer Temperature stages: --- Multi-purpose X-Ray Temperature Stage (-20°C to 150°C) --- High temperature sample stage (-150°C to 350°C) --- Extended high temperature sample stage (amb - 700°C) Tensile Stage (0-200N). GiSAXS stage compatible with high temperature sample stage. Custom stages on request.
Software	Acquisition software with automatic data reduction in absolute units and live data display. XSACT (X-ray Scattering Analysis and Calculation Tool) for data analysis and interpretation.
General parameters	Fooprint: < 1x1 m². Weight: ~ 520 kg. Maximum power consumption: < 2000 W (single phase power). Self-contained: no external fluids required.
Warranty	Two years warranty and three years on X ray source.

Fast thermal studies of cocoa butter

Simultaneous SAXS/WAXS measurements were performed on cocoa butter to investigate the evolution of the lipid phases under thermal treatment

References:

1Beckett, Steve T., ed. Industrial chocolate manufacture and use. John Wiley & Sons, 2011.

2Le Révérend, Benjamin J. D., Fryer Peter J., Coles Simon, and Bakalis Serafim. “A method to qualify and quantify the crystalline state of cocoa butter in industrial chocolate.” Journal of the American Oil Chemists’ Society 87, no. 3 (2010): 239-246.

See other applications notes

Useful links

X線ビームアクセサリー

Xenocs では、高品質の光学部品およびビームデリバリーシステムに加え、装置の性能を最適化するためのさまざまなアクセサリーを提供しています。

X線光学系

Xenocsは、XRDおよびXRFアプリケーションのための幅広い光学系を提案します。

2D-3Dビーム成形X線光学系

高フラックス光学系

スモールスポット光学系

コリメート光学系

1Dビーム成形X線光学系

高フラックス光学系

コリメート光学系

XRF光学系

X線ビームデリバリーシステム

GeniX3Dは、画期的なデザインとFOX3DT単一反射光学系を組み合わせた業界でもユニークなソリューションです。

高フラックスソリューション

スモールスポットソリューション

Xeuss 3.0仕様

仕様詳細についてのお問い合わせはこちら

Nano-inXider（ナノインサイダー）の仕様

仕様詳細についてのお問い合わせはこちら

¹Beckett, Steve T., ed. Industrial chocolate manufacture and use. John Wiley & Sons, 2011.

²Le Révérend, Benjamin J. D., Fryer Peter J., Coles Simon, and Bakalis Serafim. “A method to qualify and quantify the crystalline state of cocoa butter in industrial chocolate.” Journal of the American Oil Chemists’ Society 87, no. 3 (2010): 239-246.