ライフサイエンスコーパス: ball mill

1 city with ease by solvent-free grinding in a ball mill.

2 yst in the absence of phosphine ligands in a ball-mill.

3 at room temperature using a laboratory-scale ball-mill.

4 hardly measurable for processes in planetary ball mills.

5 size of C/CM-PIDF decreased gradually during ball milling.

6 nitrile was conducted in 10 min by vibratory ball milling.

7 lculate energy input into the powders during ball milling.

8 d the increased grain boundary density after ball milling.

9 opolymers (Kollidon(R) VA64) was prepared by ball milling.

10 bardawil biomass treated by ultrasounds and ball-milling.

11 Using the optimized conditions (zirconium ball milling, 1 g of granola and 6 mL of 50 mmol L(-1)NH

12 te content (about 80%) is achieved upon mild ball milling (400 rpm for 48 h in a planetary ball mill)

13 d gamma-CDs were subsequently synthesized by ball-milling a mixture of monotosylated alpha-, beta-, a

14 Additionally, we found that ball milling alone lowers the thermal depolymerization t

15 e report on the translation of a small scale ball-milled amidation protocol into a large scale contin

16 ng with as-synthesized ZIF-4 (ZIF-4.DMF) and ball-milling amorphized ZIF-4 (a(m)ZIF-4) were measured

17 ytes--by solvent-free mechanical mixing in a ball mill and subsequent compression.

18 o high (46-87%) yields under mechanochemical ball milling and benzoxazinones in good to excellent yie

19 gment CaCuSi(4)O(10) (Egyptian Blue, EB) via ball milling and facile tip sonication into NIR fluoresc

20 P fragments of (4 +/- 3) mum in diameter for ball milling and fibers of (20 +/- 20) mum in length for

21 e and binary precursor-based methods through ball milling and high-temperature annealing.

22 y resulting from the decreased grain size by ball milling and hot pressing, improved both the peak an

23 al diborides were fabricated via high-energy ball milling and spark plasma sintering.

24 rt data regarding nanoparticle production by ball milling and ultrasonication along with the essentia

25 cal modifications such as defects induced by ball-milling and physiological disease conditions, which

26 thesized nanocrystalline LGPS by high-energy ball-milling and probed the Li(+) ion transport paramete

27 is easily synthesised from the elements via ball-milling and subsequent annealing at moderate temper

28 ical alterations in structure resulting from ball-milling and variations in the environment due to th

29 s (femtosecond laser ablation and mechanical ball milling), and the CoO nanoparticles that result can

30 This study reports a novel piezoelectric ball milling approach for treating AFFF with a total org

31 Processes inside planetary ball mills are complex and strongly depend on the proces

32 Planetary ball mills are well known and used for particle size red

33 y input during direct compression, utilising ball milling as the method of energy input, whilst asses

34 d their derived CEC could lead to a field of ball milling-assisted mechanochemistry using any univers

35 latissima extracts prepared by enzymatic and ball milling-assisted methods and hot water were evaluat

36 This ball-milling-assisted surface protection method may be g

37 As an example, ball-milling at 30 Hz was the treatment leading to the h

38 rolling the nature and extent of surfaces of ball-milled Bi and hence results in six-fold improvement

39 e attributed to the unique morphology of the ball milled biohybrid materials which are facilitated by

40 ich in functional proteins, may benefit from ball milling (BM) to enhance protein extraction and func

41 t demonstrate production of nanosheets using ball milling, but reveals surprising indestructible beha

42 deling energy consumption indexes of a close ball mill circuit in a cement plant to address the effec

43 -PIDF), and cellulase hydrolysis followed by ball milling (CM-PIDFs) were evaluated.

44 we fabricate graphene nanopowders (~5 nm) by ball-milling commercial multi-wall carbon nanotubes.

45 bent thianthrene units through a solid-state ball-milling condensation reaction between 1,2-dihaloare

46 des under neat conditions at 50 degrees C or ball-milling conditions at room temperature.

47 s to generate organomanganese reagents under ball-milling conditions have led to the serendipitous di

48 organosulfur and related heterocycles under ball-milling conditions.

49 Under the solvent-free mechanochemical (ball-milling) conditions, the synthesis of a wide range

50 A ball-milling-enabled zinc-mediated Barbier-type allylati

51 nverts oxygen into activators in response to ball milling, enabling the reaction to proceed in the ai

52 an be conducted, although traditional opaque ball milling equipment hinder real-time monitoring of th

53 s, the SREL obtained through preswelling the ball-milled Eucalyptus wood powder in 2, 4 and 8% NaOH s

54 xide (Co(3)O(4)) nanostructures intercalated ball milling exfoliated graphene (WO(3)/Co(3)O(4)/graphe

55 report that a mechanochemical reaction in a ball mill exhibits unusual sigmoidal feedback kinetics t

56 n powder X-ray diffraction monitoring of the ball-milling experiments that showed the transient appea

57 new, nano-sized superlattice (NSS) phase in ball-milled Fe alloys, which maintains coherency with th

58 or phenanthrene and ground manually or in a ball mill for short periods of time.

59 20 min at 320 degrees C or room-temperature ball milling for 3 h.

60 Ball milling for 5 min significantly increased protein e

61 ew have addressed the use of mechanochemical ball milling for the synthesis of compounds containing s

62 Mesoporous activated carbon was ball-milled for increasing durations and the resultant p

63 cost-effective synthetic protocols based on ball-milling, for the (17)O and (18)O isotopic labeling

64 (6)Li NMR, and X-ray diffraction showed that ball-milling forms a structurally heterogeneous sample w

65 maging of motion patterns inside a planetary ball mill from simulations and video recordings is shown

66 e made by hot pressing nanopowders that were ball-milled from crystalline ingots under inert conditio

67 Specifically, solvent-free mechanochemical ball mill grinding and liquid-assisted grinding of a bor

68 last few years the application of planetary ball mills has extended to mechanochemical approaches.

69 ing defects into the LGPS bulk structure via ball-milling has a negative impact on ionic transport.

70 In the last few decades, ball-milling has received tremendous attention as a "gre

71 Ball-milling, however, may introduce structural defects

72 edium-density amorphous ice (MDA), formed by ball-milling ice I(h) at 77 K.

73 Ball milling in ammonia or hydrocarbon is promising for

74 acted with various substituted alkynes under ball milling in the presence of [Ru(p-cymene)Cl(2)](2),

75 On the other hand, ball milling in the solid state is rapid and appears to

76 follow for modelling processes in planetary ball mills in terms of refinement, synthesis' yield and

77 hemical and physical events happening during ball-milling in a time-resolved manner.

78 Ball milling is a representative mechanochemical strateg

79 irect mechanochemical amidation of esters by ball milling is described.

80 lorides and potassium cyanate in a planetary ball-mill is described.

81 Halogen bonding enables the mechanochemical ball-milling isomerization of an otherwise persistent ci

82 tration upon a prototypical system, CaF2, by ball milling it with BaF2, to create nanostructured Ba1-

83 Gel permeation chromatography of isolated ball-milled lignin indicated significant changes in the

84 als of PIDFs subjected to various degrees of ball milling (M-PIDFs), cellulase hydrolysis (C-PIDF), a

85 A mini ball mill (MBM) solvent-free matrix-assisted laser desor

86 sly inaccessible targets, through the use of ball milling mechanochemistry.

87 degradation reaction rate was measured using ball-milled metallic glass powders revealing a low therm

88 ine networks by leveraging a mechanochemical ball milling method.

89 I) are prepared by a simple mechanochemical ball-milling method, which allows low-cost and scalable

90 A fast and efficient mechanosynthesis (ball-milling) method of preparing amorphous zeolitic imi

91 ree chemistry, uses a mortar and pestle or a ball mill; microwave activation can drastically reduce r

92 f bases and Amadori products obtained during ball milling of amino acids and glucose.

93 Ball milling of aromatic, heteroaromatic, vinylic, and a

94 surfactants or solid exfoliation agents, as ball milling of bulk precursor materials usually produce

95 Notably, ball milling of commercially available precursors succes

96 or tocochromanol analysis included knife and ball milling of freeze-dried vegetable pieces.

97 le pyrolysis-free route involving a one-step ball milling of the solid-phase-synthesized polyphthaloc

98 of graphene, BN, and MoS2 can be produced by ball milling of their bulk crystals in the presence of a

99 roduced during severe bending or high-energy ball milling of thin ribbons of a metallic glass.

100 phene in-situ grown approach, which involved ball-milling of Cu powders with PMMA as solid carbon sou

101 e predictions and solid-state synthesis (via ball milling) of the most promising compositions, specif

102 Ball milling offers green approach for size reduction of

103 rate the effect of the geometry of planetary ball mills on the energy entry.

104 Moreover, we show that the effect of ball-milling on increasing the ionic conductivity of Na(

105 s contribution, we apply our newly developed ball-milling operando platform, which combines Raman spe

106 However, we show that ball milling "ordinary" ice Ih at low temperature gives

107 beled solids, we reveal that mechanochemical ball-milling overcomes inherently slow solid-state diffu

108 es is also an important event encountered in ball milling, powder processing, and everyday activities

109 d in ZIF-8, UiO-66-NH(2), or Zn-MOF-74 via a ball milling process.

110 he biomolecular content of the BC due to the ball-milling process.

111 s competitive yields compared with automated ball milling protocols, and can be extended to the late-

112 A planetary ball mill proved to be more suitable for the synthesis o

113 tor protein function, organic synthesis in a ball mill, reactions at a propagating crack, chemical ac

114 Partial amorphization of the ZIF-backbone by ball-milling results in significant enhancement of the c

115 with high wickability using a combination of ball milling, salt-templating, and sintering techniques.

116 Proton conductivity measurements of a ball milled sample of the La complex corroborate this re

117 by the sulfidization of both hand-milled and ball-milled samples of ReO(2); partial conversion of the

118 rpretations regarding the local structure of ball-milled samples, underlining the sodium disorder and

119 in Na(3)PS(4), which is ~30% higher for the ball-milled samples.

120 Ball-milled seashells, as a nano-biocomposite catalyst a

121 A new type of in situ ball mill setup has been developed at the Materials Scie

122 Polymers degraded via ball milling showed significant reduction in molecular w

123 hase transitions, can be readily obtained by ball mill synthesis from the elements followed by modera

124 Mechanochemical ball mill synthesis is an emerging method for producing

125 quinones is developed via a room-temperature ball milling technique.

126 dyes was synthesized in just 1 h using this ball-milling technique.

127 Nevertheless, despite elegant advances in ball-milling technology, limitations in scale-up still r

128 Using ball milling, these mechanistically complex reactions ca

129 into LNPs (496.43 +/- 0.54 nm) via planetary ball milling, they demonstrated stability at pH 8.0 with

130 The synthesis was optimized in terms of the ball milling time (3 or 5 h), vanadium content (0.5, 1 o

131 prepared by M-PIDFs for different lengths of ball milling time exhibited similar stability characteri

132 CM-PIDF emulsions got destabilized with ball milling time prolongation.

133 could already be obtained after 15-60 min of ball milling time.

134 Increased ball-milling time of SWCNTs resulted in enhanced structu

135 By employing ball milling to induce chain scission, we demonstrate th

136 polymerization (RDRP) utilizes ultrasound or ball milling to regenerate activators, which induce side

137 ports into the translation from "batch-mode" ball-milling to "flow-mode" reactive extrusion, using tw

138 Specifically, using ball-milling to obtain graphene nanoplatelets (GNP) drap

139 NaHCO(3)) and physical (disk milling and/or ball milling) treatments to improve the functionality an

140 C-protected amino acids were performed in a ball mill under solvent-free conditions.

141 luctant form can be consistently produced by ball-milling under different environmental conditions.

142 Ball-milling utilizes mechanical stress to modify proper

143 alkynylation of heterocyclic N-oxides under ball milling via a radical-mediated pathway.

144 A vibrational ball mill was used for the preparation of N-protected al

145 esults suggest that MDA could be obtained by ball-milling water glasses without crystallization inter

146 ter, operationally simpler than conventional ball-milling, while also providing the first example of

147 degraded into benzene when it is ground in a ball mill with AlCl(3).

148 nsional (2D) materials can be produced using ball milling with the help of liquid surfactants or soli

149 halcogenides on the surface of alumina under ball-milling without any solvent or metal.

150 all milling (400 rpm for 48 h in a planetary ball mill) without process control agents.