Themed collection Crystal Growth

212 items - Showing page 1 of 4
Highlight

Spin crossover crystalline materials engineered via single-crystal-to-single-crystal transformations

This highlight illustrates the latest crystalline materials engineered via SCSC transformations, with emphasis on the onset and progress of spin crossover in a crystal control.

Graphical abstract: Spin crossover crystalline materials engineered via single-crystal-to-single-crystal transformations
From the themed collection: 2021 Highlight article collection
Highlight

Progress in controlling the synthesis of atomically precise silver nanoclusters

This short review was designed to summarize the advances in synthesis methods of silver nanoclusters.

Graphical abstract: Progress in controlling the synthesis of atomically precise silver nanoclusters
From the themed collection: 2021 Highlight article collection
Highlight

Epitaxial nanotwinned metals and alloys: synthesis-twin structure–property relations

Recent works of epitaxial nanotwinned metals and alloys with different stacking fault energies are reviewed to elaborate the relationship among synthesis conditions, intrinsic factors, twin structure and various properties.

Graphical abstract: Epitaxial nanotwinned metals and alloys: synthesis-twin structure–property relations
From the themed collection: 2021 Highlight article collection
Highlight

Sublimation – a green route to new solid-state forms

Sublimation is an effective and ‘green’ method to prepare and identify new polymorphs, cocrystals, ionic cocrystals and molecular salts.

Graphical abstract: Sublimation – a green route to new solid-state forms
From the themed collection: 2021 Highlight article collection
Highlight

Electrochemically induced nucleation of oxidic crystals in melts – a review

Electrochemically induced nucleation refers to a method where an applied potential triggers an electrochemical reaction which changes the conditions in the melt so that nucleation can occur where it was previously not significantly possible.

Graphical abstract: Electrochemically induced nucleation of oxidic crystals in melts – a review
From the themed collection: 2021 Highlight article collection
Highlight

Review on quasi-2D square planar nickelates

Quasi-2D square planar nickelates exhibit key ingredients of high-Tc superconducting cuprates. Whether bulk samples are superconducting remains an open question, single crystals are ideal platforms for addressing such fundamental questions.

Graphical abstract: Review on quasi-2D square planar nickelates
From the themed collection: 2021 Highlight article collection
Highlight

Micro-pulling-down growth of long YAG- and LuAG-based garnet fibres: advances and bottlenecks

A technological advance in shaped μ-PD crystal growth provided us with high-quality single crystalline fibres of rare-earth garnets with the good longitudinal transparency and light attenuation length of up to 1 m.

Graphical abstract: Micro-pulling-down growth of long YAG- and LuAG-based garnet fibres: advances and bottlenecks
From the themed collection: 2021 Highlight article collection
Highlight

Dynamic force spectroscopy for quantifying single-molecule organo–mineral interactions

Organo–mineral interactions have long been the focus in the fields of biomineralization and geomineralization, since such interactions not only modulate the dynamics of crystal nucleation and growth but may also change crystal phases, morphologies, and structures.

Graphical abstract: Dynamic force spectroscopy for quantifying single-molecule organo–mineral interactions
From the themed collection: Crystal Growth
Communication

Spectral characteristics of a Nd3+/Yb3+:YPO4 single crystal with strong multi-wavelength emission

We report the growth and spectral characteristics of the 0.32 at%Nd3+/1.2 at%Yb3+:YPO4 crystal.

Graphical abstract: Spectral characteristics of a Nd3+/Yb3+:YPO4 single crystal with strong multi-wavelength emission
From the themed collection: Crystal Growth
Communication

Graphene-induced growth of Co3O4 nanoplates with modulable oxygen vacancies for improved OER properties

Graphene-induced growth of Co(OH)2 nanoplates from Co3O4 nanospheres was reported, showing an ultralow overpotential of 240 mV at 10 mA cm−2 and a Tafel slope of 107.8 mV dec−1.

Graphical abstract: Graphene-induced growth of Co3O4 nanoplates with modulable oxygen vacancies for improved OER properties
From the themed collection: Crystal Growth
Communication

Supporting ultrathin “fish scale-like” BiOBr nanosheets on Bi6Mo2O15 sub-microwires for boosting photocatalytic performance

A BiOBr/Bi6Mo2O15 edge-on heterostructure with fast electron transport could improve interface conductivity and accelerate charge-separation efficiency.

Graphical abstract: Supporting ultrathin “fish scale-like” BiOBr nanosheets on Bi6Mo2O15 sub-microwires for boosting photocatalytic performance
From the themed collection: Crystal Growth
Communication

Investigation of various fatty acid surfactants on the microstructure of flexible hydroxyapatite nanofibers

The synthesis of hydroxyapatite nanofibers using various fatty acids and their influences on HA crystal characteristics were systematically explored.

Graphical abstract: Investigation of various fatty acid surfactants on the microstructure of flexible hydroxyapatite nanofibers
From the themed collection: Crystal Growth
Communication

In situ reconstruction of ZIF-8 loaded on fibrous supports

The fibre-supported ZIF-8 can undergo a full degradation–recrystallization cycle in a vapor phase with partial recovery of its porosity.

Graphical abstract: In situ reconstruction of ZIF-8 loaded on fibrous supports
Communication

The synthesis and formation mechanism of nonpolar InN nanoplates

High-crystal-quality nonpolar indium nitride (InN) nanoplates were synthesized via deploying controllable chemical vapor deposition (CVD) technology using the M-plane of GaN nanowires (NWs) as a template.

Graphical abstract: The synthesis and formation mechanism of nonpolar InN nanoplates
From the themed collection: Crystal Growth
Communication

A plastically bendable and polar organic crystal

An organic crystal of the polar space group Pc that is capable of plastic bending is reported, and its high dielectric constant and strong second-order harmonic generation (SHG) effect have been demonstrated.

Graphical abstract: A plastically bendable and polar organic crystal
From the themed collection: Crystal Growth
Communication

Vapor–liquid–solid growth of 4H-SiC single crystal films with extremely low carrier densities in chemical vapor deposition with a Pt–Si alloy flux and X-ray topography analysis of their dislocation propagation behaviors

The CVD–VLS process for 4H-SiC films with a Pt–Si alloy flux achieved their low carrier densities of ∼1015 cm−3, demonstrating a remarkable etch back effect and a possible conversion of TEDs and TSDs in the substrate to BPDs in the films.

Graphical abstract: Vapor–liquid–solid growth of 4H-SiC single crystal films with extremely low carrier densities in chemical vapor deposition with a Pt–Si alloy flux and X-ray topography analysis of their dislocation propagation behaviors
Communication

Asymmetric metal–organic frameworks with double helices for enantioselective recognition

A pair of homochiral metal–organic frameworks are elaborated by employing flexible enantiopure ligands.

Graphical abstract: Asymmetric metal–organic frameworks with double helices for enantioselective recognition
From the themed collection: Crystal Growth
Communication

Synthesis of morphology-improved single-crystalline iron silicide nanowires with enhanced physical characteristics

Morphology-improved single-crystalline β-FeSi2 nanowires with enhanced physical characteristics were synthesized through a pre-deposition method.

Graphical abstract: Synthesis of morphology-improved single-crystalline iron silicide nanowires with enhanced physical characteristics
From the themed collection: Crystal Growth
Communication

Promoted crystallization of silicoaluminophosphate zeolites: an efficient way to accelerate crystallization rate and increase solid yield

SAPO-34 with 100% yield has been synthesized by an acid-assisted method, which is also applicable to the synthesis of other silicoaluminophosphate zeolites.

Graphical abstract: Promoted crystallization of silicoaluminophosphate zeolites: an efficient way to accelerate crystallization rate and increase solid yield
From the themed collection: Crystal Growth
Communication

Competing hydrogen-bonding interactions in a high-Tc organic molecular-ionic crystal with evident nonlinear optical response

An organic molecular-ionic crystal of (TPPO–H)2SO4 exhibits moderate NLO response which is twice that of KDP and competing hydrogen-bonding interactions triggered high-Tc phase transition.

Graphical abstract: Competing hydrogen-bonding interactions in a high-Tc organic molecular-ionic crystal with evident nonlinear optical response
From the themed collection: Crystal Growth
Communication

A temperature-reduced method for the rapid growth of hybrid perovskite single crystals with primary alcohols

In this work, we present the simple and temperature-reduced reactive inverse temperature crystallisation (RITC) method to rapidly grow high-quality organic lead trihalide perovskite single crystals.

Graphical abstract: A temperature-reduced method for the rapid growth of hybrid perovskite single crystals with primary alcohols
From the themed collection: Crystal Growth
Communication

Growth mechanism of helical γ-Dy2S3 single crystals

The nonequilibrium evaporation of a high-temperature SnS + Dy2S3 solution leads to the implementation of a VLS-like mechanism of growth of γ-Dy2S3 helical single crystals.

Graphical abstract: Growth mechanism of helical γ-Dy2S3 single crystals
From the themed collection: Crystal Growth
Communication

Solvent-assisted synthesis of dendritic cerium hexacyanocobaltate and derived porous dendritic Co3O4/CeO2 as supercapacitor electrode materials

Here, we report a solvent-mediated synthetic route for preparing cerium hexacyanocobaltate with a dendritic shape. The porous dendritic Co3O4/CeO2 was prepared after annealing at 500 °C, served as a supercapacitor electrode.

Graphical abstract: Solvent-assisted synthesis of dendritic cerium hexacyanocobaltate and derived porous dendritic Co3O4/CeO2 as supercapacitor electrode materials
From the themed collection: Crystal Growth
Communication

Adjacent N→O and C–NH2 groups — a highly efficient amphoteric structure for energetic materials resulting from tautomerization proved by crystal engineering

Adjacent N→O and C–NH2 groups (O←N[double bond, length as m-dash]C–NH2) were found to be a highly efficient and fairly balanced amphoteric energetic structure for energetic materials by crystal engineering.

Graphical abstract: Adjacent N→O and C–NH2 groups — a highly efficient amphoteric structure for energetic materials resulting from tautomerization proved by crystal engineering
From the themed collection: Crystal Growth
Communication

A high-Tc organic-ionic phase transition crystal obtained from a trivalent cation

The organic-ionic crystal of [1,4,7-triazacyclononammonium] Cl3, containing a trivalent cation, shows a high-temperature phase transition coupled with dielectric switching.

Graphical abstract: A high-Tc organic-ionic phase transition crystal obtained from a trivalent cation
From the themed collection: Crystal Growth
Communication

AB11O16(OH)2 (A = K and Cs): interpenetrating 2D layers with large birefringence

By a cation substitution strategy, two new hydroxyborates AB11O16(OH)2 (A = K and Cs) were synthesized, and KB11O16(OH)2 exhibits a short DUV cutoff edge (195 nm) and a large birefringence.

Graphical abstract: AB11O16(OH)2 (A = K and Cs): interpenetrating 2D layers with large birefringence
From the themed collection: Crystal Growth
Paper

Supercritical hydrothermal synthesis of UO2+x: stoichiometry, crystal shape and size, and homogeneity observed using 23Na-NMR spectroscopy of (U, Na)O2+x

The hydrothermal synthesis of pure uranium dioxide under supercritical water (SCW) conditions was investigated using a starting material composed of a uranyl(VI) nitrate solution at 450 °C.

Graphical abstract: Supercritical hydrothermal synthesis of UO2+x: stoichiometry, crystal shape and size, and homogeneity observed using 23Na-NMR spectroscopy of (U, Na)O2+x
From the themed collection: Crystal Growth
Paper

The crystallization morphology and process of stereocomplex crystallites of polylactide under CO2: the effect of H-bonding and chain diffusion

The crystallization of PLA SC under CO2 was in situ investigated for the first time.

Graphical abstract: The crystallization morphology and process of stereocomplex crystallites of polylactide under CO2: the effect of H-bonding and chain diffusion
From the themed collection: Crystal Growth
Paper

Pair of chiral molecular ladders and successive hydration in single-crystal-to-single-crystal mode

Self-assembly of Zn(NO3)2 with a pair of new tridentate chiral Ls produced a pair of chiral ladder-type 1D coordination polymers, where crystals were transformed into different hydrated products of zigzag 1Ds depending on chirality in the SCSC mode.

Graphical abstract: Pair of chiral molecular ladders and successive hydration in single-crystal-to-single-crystal mode
From the themed collection: Crystal Growth
Paper

New insight into the inductive effect of various seeds on the template-free synthesis of ZSM-5 zeolite

This work enables us to obtain an improved understanding of the role of seeds in the template-free synthesis of zeolite.

Graphical abstract: New insight into the inductive effect of various seeds on the template-free synthesis of ZSM-5 zeolite
From the themed collection: Crystal Growth
Paper

Exploration of structural transition phenomenon in flexible metal–organic framework formed on polymer substrate

We investigate the structural transition of directly formed flexible MOF crystals on a polymer substrate.

Graphical abstract: Exploration of structural transition phenomenon in flexible metal–organic framework formed on polymer substrate
From the themed collection: Crystal Growth
Paper

High-temperature inverted annealing for efficient perovskite photovoltaics

High-quality perovskite films with large grains and reduced surface defects were obtained via an inverted annealing process. Corresponding photovoltaic devices achieved a highest efficiency of 20.4% with a stabilized power conversion efficiency (PCE) of 19.8%.

Graphical abstract: High-temperature inverted annealing for efficient perovskite photovoltaics
From the themed collection: Crystal Growth
Paper

Effect of the growth pulling direction on 3D anisotropic stress during different stages of semitransparent Li2MoO4 growth

The three dimensional thermal stress field was calculated for different growth stages of a Li2MoO4 (LMO) crystal grown in an inductively heated Czochralski furnace using the anisotropy and temperature-dependent mechanical properties.

Graphical abstract: Effect of the growth pulling direction on 3D anisotropic stress during different stages of semitransparent Li2MoO4 growth
From the themed collection: Crystal Engineering in Africa
Paper

Opposite effects of cations in enhancing and suppressing nucleation in the pathological crystallization of gout

“Opposite effects” were shown by cations, enhancing nucleation followed by suppressing nucleation at physiological pH and ionic strength.

Graphical abstract: Opposite effects of cations in enhancing and suppressing nucleation in the pathological crystallization of gout
From the themed collection: Crystal Growth
Open Access Paper

Nucleation behaviour of racemic and enantiopure histidine

Small non-centrosymmetric domains are observed in the racemic crystal, due to the low nucleation activation energy of the conglomerate.

Graphical abstract: Nucleation behaviour of racemic and enantiopure histidine
From the themed collection: Crystal Growth
Paper

Polycyclic motif engineering in cyanostilbene-based donors towards highly efficient modulable emission properties in two-component systems

Cynostilbene based two-component materials are fabricated which exhibit tunable structures and excellent photophysical properties depending on the IP of the polycyclic moiety and organization of the donor-acceptor in the condensed phase.

Graphical abstract: Polycyclic motif engineering in cyanostilbene-based donors towards highly efficient modulable emission properties in two-component systems
From the themed collection: Crystal Growth
Paper

Crystallization of paracetamol from mixtures of ethanol and water in a planar oscillatory flow crystallizer: effect of the oscillation conditions on the crystal growth kinetics

Crystal growth kinetic data is reported for a planar oscillatory flow crystallizer.

Graphical abstract: Crystallization of paracetamol from mixtures of ethanol and water in a planar oscillatory flow crystallizer: effect of the oscillation conditions on the crystal growth kinetics
From the themed collection: Celebrating Latin American Chemistry
Paper

Sequential variation of super periodic structures emerged in Bi-layered perovskite pillar-matrix epitaxial nanocomposite films with spinel ferrites

The phase stability of Aurivillius bismuth-layer structured Bi5Ti3FeO15 (BTFO15) has been investigated in an epitaxial pillar-matrix nanocomposite system with spinel ferrites.

Graphical abstract: Sequential variation of super periodic structures emerged in Bi-layered perovskite pillar-matrix epitaxial nanocomposite films with spinel ferrites
From the themed collection: Crystal Growth
Paper

Formation of double-cone-shaped ZnO mesocrystals by addition of ethylene glycol to ZnO dissolved choline chloride–urea deep eutectic solvents and observation of their manners of growth

ZnO mesocrystals were grown in ZnO dissolved CU-DESs with addition of ethylene glycol. Their manner of growth was observed and discussed.

Graphical abstract: Formation of double-cone-shaped ZnO mesocrystals by addition of ethylene glycol to ZnO dissolved choline chloride–urea deep eutectic solvents and observation of their manners of growth
From the themed collection: Crystal Growth
Paper

Investigation of the blue color center in β-Ga2O3 crystals by the EFG method

This work investigated the blue color center in β-Ga2O3 crystals grown by the EFG and obtained an effective method to eliminate it.

Graphical abstract: Investigation of the blue color center in β-Ga2O3 crystals by the EFG method
From the themed collection: Crystal Growth
Paper

Reactive molten-flux assisted syntheses of single crystals of Cs19Ln19Mn10Te48 (Ln = Pr and Gd) crystallizing in a new structure type

Two new complex layered quaternary tellurides, Cs19Ln19Mn10Te48 (Ln = Pr and Gd), were synthesized by the reactive molten flux method. The title compounds represent an unprecedented structure type.

Graphical abstract: Reactive molten-flux assisted syntheses of single crystals of Cs19Ln19Mn10Te48 (Ln = Pr and Gd) crystallizing in a new structure type
From the themed collection: Crystal Growth
Open Access Paper

Protein crystallisation facilitated by silica particles to compensate for the adverse impact from protein impurities

Nanonucleants for protein crystallisation in the presence of impurities.

Graphical abstract: Protein crystallisation facilitated by silica particles to compensate for the adverse impact from protein impurities
From the themed collection: Crystal Growth
Open Access Paper

Protein crystallisation with air bubble templates: case of gas–liquid–solid interfaces

Crystal formation on air bubble–liquid interface, as soft template to efficiently prompt nucleation of proteins.

Graphical abstract: Protein crystallisation with air bubble templates: case of gas–liquid–solid interfaces
From the themed collection: Biomolecular crystal engineering
Paper

Synthesis, structural characterization, and luminescence properties of heteroleptic bismuth-organic compounds

The synthesis and photoluminescent properties of four bismuth-organic compounds, their lanthanide doped analogs, and an isostructural europium complex are reported.

Graphical abstract: Synthesis, structural characterization, and luminescence properties of heteroleptic bismuth-organic compounds
From the themed collection: Crystal Growth
Paper

Taming CL-20 through hydrogen bond interaction with nitromethane

A novel cocrystal explosive of CL-20/nitromethane in a 1 : 2 molar.

Graphical abstract: Taming CL-20 through hydrogen bond interaction with nitromethane
From the themed collection: Crystal Growth
Paper

Two Zr-based heterometal–organic frameworks for efficient CO2 reduction under visible light

Two novel zirconium-based heterometal–organic framework catalysts can effectively improve photocatalytic activities for CO2 photoreduction under visible light.

Graphical abstract: Two Zr-based heterometal–organic frameworks for efficient CO2 reduction under visible light
From the themed collection: Crystal Growth
Paper

Photoluminescence study of N-rich B-doped diamonds grown in NiMnCo solvent before and after annealing

Incorporation of boron substantially decreases the luminescence of centers (NV, Ni–N, and Co–N) in nitrogen-rich boron-doped diamonds before and after HPHT annealing.

Graphical abstract: Photoluminescence study of N-rich B-doped diamonds grown in NiMnCo solvent before and after annealing
From the themed collection: Crystal Growth
Paper

Growth, spectral and laser properties of a Yb-doped strontium yttrium phosphate crystal with a disordered structure

A novel disordered crystal Yb:YSr3(PO4)3 is grown by the Czochralski method. Results indicate that it can be a promising candidate for ultrashort pulse generation and tunable broadband solid-state lasers.

Graphical abstract: Growth, spectral and laser properties of a Yb-doped strontium yttrium phosphate crystal with a disordered structure
From the themed collection: Crystal Growth
Paper

Multilevel strategies for the composition and formation of DAAF/HNIW composite crystals

Insensitive energetic materials are still a great challenge for potential applications.

Graphical abstract: Multilevel strategies for the composition and formation of DAAF/HNIW composite crystals
From the themed collection: Crystal Growth
Paper

Competition between diamond nucleation and growth under bias voltage by microwave plasma chemical vapor deposition

A competition between diamond nucleation and growth is proposed in which the surface and bulk nucleation coexist and compete.

Graphical abstract: Competition between diamond nucleation and growth under bias voltage by microwave plasma chemical vapor deposition
From the themed collection: Crystal Growth
Paper

Green solvent assisted preparation of one-dimensional CsPbBr3 nanocrystals with a controllable morphology for cyan-emitting applications

Upon tuning the polarity of antisolvent medium, the length of CsPbBr3 NCs realizing the conversion from nanorods to NWs. Furthermore, the width of the NWs can be adjusted feasibly via the overgrowth of CsPbBr3 NWs.

Graphical abstract: Green solvent assisted preparation of one-dimensional CsPbBr3 nanocrystals with a controllable morphology for cyan-emitting applications
From the themed collection: Crystal Growth
Paper

Suppressing barite crystallization with organophosphorus compounds

A naturally derived phosphorous-containing molecule, phytate, functions as a dual inhibitor of barium sulfate (barite) nucleation and growth, making it a potentially viable environmentally-friendly alternative to current barite scale treatments.

Graphical abstract: Suppressing barite crystallization with organophosphorus compounds
From the themed collection: Crystal Growth
Open Access Paper

Reversed crystal growth of metal organic framework MIL-68(In)

A reversed crystal growth mechanism of MIL-68(In) is revealed. Nanorods of MIL-68 aggregate in parallel into microrods, followed by surface recrystallisation into a single crystal hexagonal shell and extension of crystallisation from surface to core.

Graphical abstract: Reversed crystal growth of metal organic framework MIL-68(In)
From the themed collection: Crystal Growth
Paper

Strong intermolecular interaction induced methylene-bridged asymmetric heterocyclic explosives

Methylene-bridged asymmetric heterocyclic explosives were designed and synthesized to attempt the possibility of realizing energetic materials with high-energy and adequate sensitivity.

Graphical abstract: Strong intermolecular interaction induced methylene-bridged asymmetric heterocyclic explosives
From the themed collection: Crystal Growth
Paper

Growth mechanism on graphene-regulated high-quality epitaxy of flexible AlN film

We report a novel diffusion–adsorption regulation growth method in the epitaxy of AlN on graphene for the high-quality and transferable large-size AlN film.

Graphical abstract: Growth mechanism on graphene-regulated high-quality epitaxy of flexible AlN film
From the themed collection: Crystal Growth
Paper

Involvement of various anions in tuning the structure of silver(I) coordination polymers based on a S-donor ligand: syntheses, crystal structure and uptake properties

Ag(I) coordination polymers based on a S-donor ligand containing of various anions were synthesized and characterized. Also, the absorption potential of the polymers was examined by the NH3 and H2S gases.

Graphical abstract: Involvement of various anions in tuning the structure of silver(i) coordination polymers based on a S-donor ligand: syntheses, crystal structure and uptake properties
From the themed collection: Crystal Growth
Paper

Temperature-dependent phase composition of fluorinated zinc phthalocyanine thin films and their sensing properties towards gaseous NO2

This work presents a temperature-dependent phase composition study of thin films (200 nm) of fluorinated zinc phthalocyanines (4F, 16F) and their chemiresistive response towards NO2 gas.

Graphical abstract: Temperature-dependent phase composition of fluorinated zinc phthalocyanine thin films and their sensing properties towards gaseous NO2
From the themed collection: Crystal Growth
Paper

Crystal growth and properties characterization of Nd3+:Na5Lu(MoO4)4 for continuous multi-wavelength NIR laser emission

The Nd3+:Na5Lu(MoO4)4 crystal was grown in a 4Na2O–5MoO3 flux through the top-seeded solution growth technique, and achieved a continuous multi-wavelength NIR laser emission in the Nd3+:Na5Lu(MoO4)4 crystal for the first time.

Graphical abstract: Crystal growth and properties characterization of Nd3+:Na5Lu(MoO4)4 for continuous multi-wavelength NIR laser emission
From the themed collection: Crystal Growth
Paper

Sisal-like Sn2+ doped ZnO hierarchical structures: synthesis, growth mechanism, and their application in photocatalysis

Sisal-like Sn doped ZnO hierarchical structures were prepared by the hydrothermal method without employing templates or matrices. The architectures show enhanced light absorption, high photocatalytic properties, good stability and reusability.

Graphical abstract: Sisal-like Sn2+ doped ZnO hierarchical structures: synthesis, growth mechanism, and their application in photocatalysis
From the themed collection: Crystal Growth
Paper

Fabrication of a 2 inch free standing porous GaN crystal film and application in the growth of relaxed crack-free thick GaN

This paper describes the fabrication of a 2 inch free standing porous GaN crystal film and the application in the growth of relaxed crack-free thick GaN.

Graphical abstract: Fabrication of a 2 inch free standing porous GaN crystal film and application in the growth of relaxed crack-free thick GaN
From the themed collection: Crystal Growth
Paper

Growth of a large-aperture mid-infrared nonlinear optical La3Nb0.5Ga5.5O14 crystal for optical parametric chirped-pulse amplification

A high optical quality 60 mm-diameter LGN crystal with wide transparency was grown by the Czochralski method. The origin of the wide transparency as for a traditional oxide crystal was investigated from the viewpoint of crystal symmetry.

Graphical abstract: Growth of a large-aperture mid-infrared nonlinear optical La3Nb0.5Ga5.5O14 crystal for optical parametric chirped-pulse amplification
From the themed collection: Crystal Growth
Paper

Five new rubidium borates with 0D clusters, 1D chains, 2D layers and 3D frameworks

By tuning the synthetic conditions, borates with 0D clusters were transformed into a 1D chain, 2D layer and 3D framework.

Graphical abstract: Five new rubidium borates with 0D clusters, 1D chains, 2D layers and 3D frameworks
From the themed collection: Crystal Growth
Paper

Crystallization of paracetamol from aqueous solutions in a planar oscillatory flow crystallizer: effect of the oscillation conditions on the nucleation kinetics

Nucleation kinetic data is reported for a planar oscillatory flow crystallizer.

Graphical abstract: Crystallization of paracetamol from aqueous solutions in a planar oscillatory flow crystallizer: effect of the oscillation conditions on the nucleation kinetics
From the themed collection: Crystal Growth
Paper

Simple and facile one-step synthesis of bowl-like hollow ZSM-5 zeolites

One-step synthesis of bowl-like hollow ZSM-5 zeolites via controlling the the hydrolysis temperature of TEOS.

Graphical abstract: Simple and facile one-step synthesis of bowl-like hollow ZSM-5 zeolites
From the themed collection: Crystal Growth
Paper

Two pairs of chiral lanthanide–oxo clusters Ln14 induced by amino acid derivatives

Two pairs of chiral lanthanide–oxo clusters L-/D-Ln14 (Ln = Y/Dy) have been obtained under the action of anion template. The solid-state circular dichroism (CD) spectra of L-Y14/D-Y14 and L-Dy14/D-Dy14 displayed mirror symmetry effects.

Graphical abstract: Two pairs of chiral lanthanide–oxo clusters Ln14 induced by amino acid derivatives
From the themed collection: Crystal Growth
Paper

Growth of MSe semiconductor nanowires on metal substrates through an Ag2Se-catalyzed solution–solid–solid mechanism (M = Zn, Cd and Mn)

Solution-phase growth of MSe nanowires on their respective metal foil or flakes (M = Zn, Cd and Mn) has been realized by a recently developed solution–solid–solid mechanism initiated by preexisting Ag2Se seeds.

Graphical abstract: Growth of MSe semiconductor nanowires on metal substrates through an Ag2Se-catalyzed solution–solid–solid mechanism (M = Zn, Cd and Mn)
From the themed collection: Crystal Growth
Paper

Quality improvement mechanism of sputtered AlN films on sapphire substrates with high-miscut-angles along different directions

We studied the annealing mechanism of the films with high-miscut-angles at low cost and high efficiency and revealed the essence of annealing to improve the film quality lies in the annihilation of grain boundaries during the recrystallization.

Graphical abstract: Quality improvement mechanism of sputtered AlN films on sapphire substrates with high-miscut-angles along different directions
From the themed collection: Crystal Growth
Paper

New phase transition pattern of fivefold twins transformed into lamellar structure in Ti3Al alloy

A new phase transition pattern of fivefold twins into a lamellar structure leading to a second phase transition was found in Ti3Al alloy.

Graphical abstract: New phase transition pattern of fivefold twins transformed into lamellar structure in Ti3Al alloy
From the themed collection: Crystal Growth
Paper

Metastable growth and infrared spectra of CuB2O4:Ni single crystals

The formation of CuB2O4:Ni crystals in fluxes based on Li2WO4–Bi2O3–WO3 has been studied. A distinctive feature of the used flux growing mode is the metastable nature of nucleation. IR reflection and transmission spectra are presented.

Graphical abstract: Metastable growth and infrared spectra of CuB2O4:Ni single crystals
From the themed collection: Crystal Growth
Paper

Optimized growth and anisotropic properties of Li2ZrTeO6 nonlinear optical crystals

Centimeter-sized and high-quality Li2ZrTeO6 crystals were grown by a modified top-seed solution growth method. The excellent thermal properties indicate that Li2ZrTeO6 is an excellent candidate suitable for high-power nonlinear optical applications.

Graphical abstract: Optimized growth and anisotropic properties of Li2ZrTeO6 nonlinear optical crystals
From the themed collection: Crystal Growth
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The latest research on Crystal Growth published in CrystEngComm.

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