Scanning Transmission X-Ray Microscopic Study of Carbonated Calcium Silicate Hydrate

Ha, Ju-Young; Chae, Sejung Rosie; Chou, Kang Wei; Tyliszczak, Tolek; Monteiro, P. J. M.

doi:10.3141/2142-12

Cited by 13 publications

(10 citation statements)

References 16 publications

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“…Energy difference between major and adjacent minor peaks is~1.4 eV. L 3,2 -edge spectra of C-S-H were also reported in earlier literatures [15,35], which exhibited weak splitting. In Fig.…”

Section: Ca L 32 -Edgesupporting

confidence: 57%

Atomic and nano-scale characterization of a 50-year-old hydrated C3S paste

Geng

Taylor

Bae

et al. 2015

Cement and Concrete Research

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a b s t r a c tKeywords: TEM (B) NMR Microstructure Ca 3 SiO 5 (D) STXM This paper investigates the atomic and nano-scale structures of a 50-year-old hydrated alite paste. Imaged by TEM, the outer product C-S-H fibers are composed of particles that are 1.5-2 nm thick and several tens of nanometers long. 29 Si NMR shows 47.9% Q 1 and 52.1% Q 2 , with a mean SiO 4 tetrahedron chain length (MCL) of 4.18, indicating a limited degree of polymerization after 50 years' hydration. A Scanning Transmission X-ray Microscopy (STXM) study was conducted on this late-age paste and a 1.5 year old hydrated C 3 S solution. Near Edge X-ray Absorption Fine Structure (NEXAFS) at Ca L 3,2 -edge indicates that Ca 2+ in C-S-H is in an irregular symmetric coordination, which agrees more with the atomic structure of tobermorite than that of jennite. At Si K-edge, multiscattering phenomenon is sensitive to the degree of polymerization, which has the potential to unveil the structure of the SiO 4 4− tetrahedron chain.

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“…Energy difference between major and adjacent minor peaks is~1.4 eV. L 3,2 -edge spectra of C-S-H were also reported in earlier literatures [15,35], which exhibited weak splitting. In Fig.…”

Section: Ca L 32 -Edgesupporting

confidence: 57%

Atomic and nano-scale characterization of a 50-year-old hydrated C3S paste

Geng

Taylor

Bae

et al. 2015

Cement and Concrete Research

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“…Scanning transmission X-ray microscopy (STXM) is a promising technique in further understanding the structure and the properties of amorphous and crystalline materials, such as C-S-H phase [9][10][11][12][13][14]. Combined with near-edge X-ray absorption fine structure (NEXAFS), STXM provides the information on both morphology and X-ray Absorption Spectroscopy (XAS) at submicron-scale level.…”

Section: Introductionmentioning

confidence: 99%

Microstructural Study of Hydration of C₃S in the Presence of Calcium Nitrate Using Scanning Transmission X-Ray Microscopy (STXM)

Wang

Geng

et al. 2020

Journal of Nanomaterials

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Calcium nitrate (CN) is used widely as an effectively inorganic setting accelerator and antifreeze admixture in concrete structures. In this paper, the multiscale investigation of CN on the hydration of C3S was studied by scanning transmission X-ray microscopy (STXM) combined with near-edge X-ray absorption fine structure (NEXAFS), 29Si MAS NMR, calorimetry, scanning electron microscope, and N2 absorption. It was concluded that the calcium silicate hydrate (C-S-H) surrounds the unhydrated C3S at 1-day hydrated C3S in the presence of calcium nitrate, while portlandite is partly in transformation and is formed partly. Based on Ca L3,2-edge NEXAFS spectra for 1-day hydrated C3S particle, calcium nitrate does not change the structure of the asymmetrically 7-fold coordination of calcium in the C-S-H. Calcium nitrate can accelerate the hydration of C3S to some extent and polymerization of the silicate chains within C-S-H considerably at early age, resulting in the increasing specific surface area.

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“…The scanning transmission X-ray microscopy (STXM) technique has been successfully employed in numerous applications [20,21,22], including cement chemistry [23,24,25]. Recently, in situ soft X-ray spectromicroscopy using wet cells created by sandwiching a sample between two silicon nitride (Si 3 N 4 ) windows has been widely utilized for investigating wet samples [26,27,28].…”

Section: Introductionmentioning

confidence: 99%

In Situ Soft X-ray Spectromicroscopy of Early Tricalcium Silicate Hydration

et al. 2016

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The understanding and control of early hydration of tricalcium silicate (C3S) is of great importance to cement science and concrete technology. However, traditional characterization methods are incapable of providing morphological and spectroscopic information about in situ hydration at the nanoscale. Using soft X-ray spectromicroscopy, we report the changes in morphology and molecular structure of C3S at an early stage of hydration. In situ C3S hydration in a wet cell, beginning with induction (~1 h) and acceleration (~4 h) periods of up to ~8 h, was studied and compared with ex situ measurements in the deceleration period after 15 h of curing. Analysis of the near-edge X-ray absorption fine structure showed that the Ca binding energy and energy splitting of C3S changed rapidly in the early age of hydration and exhibited values similar to calcium silicate hydrate (C–S–H). The formation of C–S–H nanoseeds in the C3S solution and the development of a fibrillar C–S–H morphology on the C3S surface were visualized. Following this, silicate polymerization accompanied by C–S–H precipitation produced chemical shifts in the peaks of the main Si K edge and in multiple scattering. However, the silicate polymerization process did not significantly affect the Ca binding energy of C–S–H.

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Scanning Transmission X-Ray Microscopic Study of Carbonated Calcium Silicate Hydrate

Cited by 13 publications

References 16 publications

Atomic and nano-scale characterization of a 50-year-old hydrated C3S paste

Atomic and nano-scale characterization of a 50-year-old hydrated C3S paste

Microstructural Study of Hydration of C₃S in the Presence of Calcium Nitrate Using Scanning Transmission X-Ray Microscopy (STXM)

In Situ Soft X-ray Spectromicroscopy of Early Tricalcium Silicate Hydration

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Scanning Transmission X-Ray Microscopic Study of Carbonated Calcium Silicate Hydrate

Cited by 13 publications

References 16 publications

Atomic and nano-scale characterization of a 50-year-old hydrated C3S paste

Atomic and nano-scale characterization of a 50-year-old hydrated C3S paste

Microstructural Study of Hydration of C3S in the Presence of Calcium Nitrate Using Scanning Transmission X-Ray Microscopy (STXM)

In Situ Soft X-ray Spectromicroscopy of Early Tricalcium Silicate Hydration

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Microstructural Study of Hydration of C₃S in the Presence of Calcium Nitrate Using Scanning Transmission X-Ray Microscopy (STXM)