ライフサイエンスコーパス: two-dimensional

1 ced in all three dimensions, rather than the two-dimensional(17,18) layers of flexible woven strands

2 ectroscopy, the cis/trans isomerization in a two-dimensional (2-D) array of surface-mounted azobenzen

3 from previous approaches that have relied on two-dimensional (2-D) images to study object processing,

4 e shape enhancement (PROFILE) method and the two-dimensional (2D) (1)H-(13)C methyl correlation-based

5 rchitectures, from protein cages to extended two-dimensional (2D) and three-dimensional (3D) crystall

6 nt stem cells (hiPSCs) into NPCs to generate two-dimensional (2D) and three-dimensional (3D) culture

7 ight-induced control of cellular activity in two-dimensional (2D) and three-dimensional (3D) platform

8 containing single cells are immobilized in a two-dimensional (2D) array, with osmotically induced cha

9 The interface of the two-dimensional (2D) BN with the metal nanoparticles pla

10 ng a 15-year-long investigation on graphene, two-dimensional (2D) carbon-rich conjugated frameworks (

11 Here, we isolate a two-dimensional (2D) chalcogenide quasicrystal and appro

12 spectrometry method was utilized to measure two-dimensional (2D) chromatographic fingerprints of thr

13 f producing highly crystalline acylhydrazone two-dimensional (2D) COFs with diversified structures (s

14 th three-dimensional (3D) and the other with two-dimensional (2D) convolutional kernels.

15 itement because of their advantages over the two-dimensional (2D) counterparts in fields of plasmonic

16 tiffness can promote cancer progression, and two-dimensional (2D) culture studies indicate that incre

17 CT) and extravillous trophoblast (EVT) was a two-dimensional (2D) culture system of human trophoblast

18 ticity, we develop a formalism that maps the two-dimensional (2D) elastic problem into that of nonlin

19 at wavevector q = 0, plasmons in traditional two-dimensional (2D) electron gas disperse as [Formula:

20 The advent of the two-dimensional (2D) family of halide perovskites and th

21 emission matrix (EEM) spectrometer generates two-dimensional (2D) fluorescence matrices at a data acq

22 to show that the average geometry of natural two-dimensional (2D) fragments, from mud cracks to Earth

23 The most fascinating feature of certain two-dimensional (2D) gapless quantum spin liquid (QSL) i

24 were thermally desorbed into a comprehensive two-dimensional (2D) gas chromatography (GC x GC) system

25 copy to monitor three distinct mechanisms of two-dimensional (2D) growth of zeolite A where we show t

26 trics of TB infection in a tissue in situ is two-dimensional (2D) histopathology.

27 is exemplified by the extensive reporting of two-dimensional (2D) ice on metals(5-11), insulating sur

28 stallization of cholesterol from an unstable two-dimensional (2D) in-membrane state proceeds via well

29 The two-dimensional (2D) isotope maps reveal U ratio variati

30 rystallinity of metal nanoparticles (NPs) in two-dimensional (2D) lattices.

31 ibes the first implementation of an array of two-dimensional (2D) layered conductive metal-organic fr

32 adhesion energy is a fundamental property of two-dimensional (2D) layered materials and van der Waals

33 ure reaction and determined that the compact two-dimensional (2D) LiInP(2)Se(6) detectors resolved th

34 olybdenum disulfide (MoS(2) ) nanosheet is a two-dimensional (2D) material with high electron mobilit

35 Two-dimensional (2D) materials are at the forefront of m

36 It has already been realized that two-dimensional (2D) materials carry a great potential i

37 ate the electronic and optical properties of two-dimensional (2D) materials.

38 Two-dimensional (2D) molybdenum disulfide (MoS(2)) nanom

39 Two-dimensional (2D) nanofluidic ion transporting membra

40 Two-dimensional (2D) nanomaterials, such as graphene and

41 HSV-1 infection of two-dimensional (2D) neuronal cultures causes intracellu

42 ies in sample preparation, and an absence of two-dimensional (2D) NMR experiments, but (31)P NMR has

43 oad lines in one-dimensional NMR, (1)H-(13)C two-dimensional (2D) NMR is required for metabolite moni

44 One-dimensional (1D) and two-dimensional (2D) NMR studies revealed that in fused

45 this geometric constraint can be relaxed in two-dimensional (2D) perovskites, providing us an opport

46 By combining Raman spectroscopy with two-dimensional (2D) perturbation correlation moving win

47 wherein we use a sheet of light to bleach a two-dimensional (2D) plane and subsequently image the re

48 inates from filamentous cells that grow in a two-dimensional (2D) plane through a series of asymmetri

49 ormation between crystalline vinylene-linked two-dimensional (2D) polymers and crystalline cyclobutan

50 (3D) structure of scenes from information in two-dimensional (2D) retinal images.

51 ed, and diffusion-weighted imaging; sagittal two-dimensional (2D) short inversion time inversion-reco

52 lica since the early 1990s, the synthesis of two-dimensional (2D) silica nanostructures remains chall

53 ntal paradigms to isolated subjects in open, two-dimensional (2D) spaces.

54 linity and permanent porosity of the layered two-dimensional (2D) structure were established.

55 udes digital breast tomosynthesis (DBT) with two-dimensional (2D) synthetic mammography (SM) or stand

56 Two-dimensional (2D) ternary materials recently generate

57 ndous advances through research conducted on two-dimensional (2D) TMD crystals, it is vital to seek n

58 In many plants, the transition from two-dimensional (2D) to 3D growth occurs during embryo d

59 Here, we show statistical reprogramming of two-dimensional (2D), noncompact self-assembled structur

60 eneric and fast achiral-chiral heart-cutting two-dimensional (2D)-LC method has been developed to det

61 n sub-diffraction (SPEED) microscopy and its two-dimensional (2D)-to-3D transformation algorithm to p

62 ical defects capture the salient features of two-dimensional active liquid crystals composed of energ

63 We measured in situ two-dimensional affinity on individual live T cells from

64 The two-dimensional analysis reported in this study allowed

65 Two-dimensional and 3-dimensional global radial strain,

66 Two-dimensional and 3D CNNs applied to ACL lesion classi

67 recognized as a powerful technique for both two-dimensional and 3D molecular imaging.

68 amic cell shapes, and ubiquitous motility on two-dimensional and in three-dimensional solid matrix.

69 ells based on their spontaneous migration in two-dimensional and three-dimensional microenvironments,

70 ork demonstrates a facile approach to employ two-dimensional aromatic compounds as modular building b

71 Two-dimensional atomic crystals can radically change the

72 Stable free-standing two-dimensional Bi monolayer (Bismuthene) structures hav

73 regulation of big gene clusters can set up a two-dimensional body surface map.

74 reast cancer cell lines growing in adherent, two-dimensional cell culture express HSATII RNA at diffe

75 In addition, by providing a two-dimensional characterization of the CFTR protein, it

76 In this work, we introduce a new two-dimensional chip-based high-performance liquid chrom

77 exopeptidase digestions of the proteome with two-dimensional chromatographic separation and tandem-MS

78 Using two-dimensional class averaging, we show that alpha-synu

79 Furthermore, two-dimensional clusters of up to 9 rhizoid cells develo

80 e buckybowls encapsulate C(70) and result in two-dimensional cocrystals.

81 Herein, we report two newly designed two-dimensional COFs based on a (diarylamino)benzene lin

82 Two-dimensional colloidal crystals of submicrometer micr

83 lytical method has been developed based on a two-dimensional column switching system, which consisted

84 These studies illustrate the power of two-dimensional combinatorial screening to define molecu

85 A selection-based screen, named two-dimensional combinatorial screening, revealed prefer

86 Berry curvature and the quantum metric in a two-dimensional continuous medium-a high-finesse planar

87 ion of myocardial scar volume, outperforms a two-dimensional convolutional neural network, and demons

88 Two-dimensional correlation spectroscopy analysis of the

89 present the successful synthesis of a novel two-dimensional corrole-based covalent organic framework

90 e demonstrated on a novel highly crystalline two-dimensional covalent organic framework (COF), COF-61

91 Layer-stacking structures are very common in two-dimensional covalent organic frameworks (2D COFs).

92 upling among the lattice, charge and spin in two-dimensional CrI(3).

93 The algorithm is based on a two-dimensional cross correlation using fast Fourier tra

94 Here we report how two-dimensional crystal (2DC) overlayers influence the r

95 Large suspended two-dimensional crystals and heterojunctions were also p

96 te that the interatomic coupling between two two-dimensional crystals can be determined from angle-re

97 However, the ultra-thin nature of two-dimensional crystals inevitably results in high cont

98 Next, we analyzed two-dimensional crystals of SERCA in the presence of wil

99 This buckling of two-dimensional crystals offers a strategy for creating

100 ffect in transparent suspensions of magnetic two-dimensional crystals, which arises from a combinatio

101 movement of finger groups and in an offline two-dimensional cursor-control task, the SBP performed e

102 ile the latter relies on spatial encoding of two-dimensional data.

103 phases as well as their suggested potential two-dimensional derivatives.

104 Previous efforts to form two-dimensional dilute magnetic semiconductors utilized

105 on the n = 2 homologue of the ferroelectric two-dimensional DJ-OIHP (AMP)(MA)Pb(2)I(7) (DJP(n=2), AM

106 as applied in the assembly of highly ordered two-dimensional droplet networks.

107 is then confirmed experimentally by one- and two-dimensional dynamic nuclear polarization enhanced (2

108 Relating serum BDNF levels with two-dimensional echocardiographic indices will provide i

109 Two-dimensional echocardiography showed normal intracard

110 pants underwent routine blood investigation, two-dimensional echocardiography, and serum BDNF estimat

111 eries of highly crystalline binary alloys of two-dimensional electrically conducting metal-organic fr

112 A two-dimensional electron gas in a magnetic field is a mo

113 However, unlike semiconductors and two-dimensional electron gases where the charge degree o

114 racting electrons in an exceptionally clean, two-dimensional electron system confined to a modulation

115 Studies of two-dimensional electron systems in a strong magnetic fi

116 e visualization of cyclotron dynamics inside two-dimensional electron-gas materials and enables the e

117 Since the discovery of quantum beats in the two-dimensional electronic spectra of photosynthetic pig

118 Here, using ultrafast two-dimensional electronic spectroscopy (2DES), we revea

119 Linear and ultrabroadband two-dimensional electronic spectroscopy experiments reve

120 e both challenges by applying ultrabroadband two-dimensional electronic spectroscopy to the principal

121 Here, we employ polarization-dependent two-dimensional electronic-vibrational spectroscopy to s

122 y ELISA to those independently determined by two-dimensional electrophoresis and showed that the two

123 ; and Rubia Gallega, RG) were estimated from two-dimensional electrophoresis profiles of meat samples

124 e the human situation, compared to classical two-dimensional endothelial cell cultures.

125 proximity FRET effect occurring in confined two-dimensional environments.

126 ectron-hole plasma and show the formation of two-dimensional excitons in single-layer MoS(2) on the t

127 many-body problems that are described by the two-dimensional extended Hubbard model(3,13,14) or spin

128 implified one-dimensional cell geometry, and two-dimensional finite element simulations of deforming

129 ns an array of lateral filters that create a two-dimensional flow.

130 n of cellular membranes and, more generally, two-dimensional fluids on curved substrates.

131 bility of interlayer and intralayer space of two-dimensional fluorinated MOFs for capturing acetylene

132 Tellurene, the two-dimensional form of tellurium, possesses a chiral cr

133 es of the receptor and the G(i) to calculate two-dimensional free energy landscapes.

134 om in photonic crystals(10,11), analogous to two-dimensional gapped valleytronic materials(12).

135 troduction in the early 1990s, comprehensive two-dimensional gas chromatography (GCxGC) has evolved f

136 Comprehensive two-dimensional gas chromatography (GCxGC) is a powerful

137 rsion SPME sampling coupled to comprehensive two-dimensional gas chromatography - time-of-flight mass

138 re analyzed using derivatization followed by two-dimensional gas chromatography and time of flight ma

139 C algorithm" was developed for comprehensive two-dimensional gas chromatography coupled with time-of-

140 t-marathon were analysed using an untargeted two-dimensional gas chromatography time-of-flight mass s

141 Metabolomic analyses were performed using two-dimensional gas chromatography with time-of-flight m

142 argeted (UT) fingerprinting on comprehensive two-dimensional gas-chromatographic patterns is develope

143 Two dimensional GC (GC x GC) significantly enhances disc

144 enetic, etc.) produce quantitative maps with two-dimensional genomic coordinate systems.

145 In a quasi-two-dimensional geometry, we accurately determined the c

146 onal carbon nanotube and lateral infinity of two-dimensional graphene.

147 urement technologies that rely on changes in two-dimensional ground cover can miss changes in forest

148 Organic-inorganic two-dimensional halide perovskites (2DPKs) are organic a

149 stantially inhibit in-plane ion diffusion in two-dimensional halide perovskites by incorporating rigi

150 control over ultracold fermions confined to two-dimensional harmonic potentials and prepare closed-s

151 quantum phenomena in electronically coupled two-dimensional heterostructures are central to next-gen

152 of three embedded spirals for the case of a two-dimensional hexagonal lattice.

153 nal proliferation and differentiation, using two-dimensional human neural cell cultures and three-dim

154 Two-dimensional hybrid organic-inorganic perovskites wit

155 Here, we report on the doping of a family of two-dimensional hybrid perovskites, in which inorganic l

156 equivalent to a well-known physics model for two-dimensional ice) and their relations to certain clas

157 erate a concise feature map in the form of a two-dimensional image by minimizing the pairwise distanc

158 inic notes and independent graders reviewing two-dimensional images and anatomic landmarks.

159 a so-called core-mantle arrangement seen in two-dimensional images, led researchers to seek function

160 port a general, scalable method to exfoliate two-dimensional imine-linked COF powders by temporarily

161 ter harvesting and report here a new porous, two-dimensional imine-linked COF with a voided square gr

162 allergens, identifying 16 allergens based on two-dimensional immunoblotting with A. terreus susceptib

163 Ultrafast two-dimensional infrared (2D-IR) spectra can now be obta

164 ate curve resolution analyses of the one and two-dimensional infrared spectroscopy data show that the

165 value decompositions of one-dimensional and two-dimensional infrared spectroscopy spectra indicate t

166 ocess can be monitored with conventional and two-dimensional infrared spectroscopy, vibrational circu

167 tegies are common, and (3) species engage in two-dimensional interactions.

168 etic liquid crystalline lipid bilayers using two-dimensional J-resolved NMR spectroscopy.

169 A supramolecular two-dimensional kagome weave(15) and a single-layer, sur

170 tions, into three-dimensional droplets or in two-dimensional lattices on membrane surfaces, have emer

171 1, 2 and 3 dimensional systems as well as in two-dimensional lattices with long-ranged interactions.

172 d three-fold rotational symmetry in a single two-dimensional layer of crystalline state.

173 a large family of such monolayer structured two-dimensional layered materials, including semiconduct

174 al state of sulfur, we studied its growth on two-dimensional layered materials.

175 Here, we incorporate rather thick two-dimensional layered semiconducting crystals for reli

176 the conventional horizontal alignment of the two-dimensional layers of the MXene Ti(3)C(2) by using s

177 erovskites (2DPKs) are organic and inorganic two-dimensional layers, which self-assemble in solution

178 In this study, an achiral-chiral two-dimensional liquid chromatographic method for the en

179 Recent developments in two-dimensional liquid chromatography (2D-LC) now make s

180 we present a 27-plex TMT method coupled with two-dimensional liquid chromatography (LC/LC) for extens

181 e developed a generic reagent, ultratargeted two-dimensional liquid chromatography-tandem mass spectr

182 otors end-to-end in a closed chain forming a two-dimensional loop that folds under its mechanical con

183 oribbon that hybridize to yield a dispersive two-dimensional low-energy band of states.

184 these issues, we propose the formation of a two-dimensional magnetic monopole gas (2DMG) with a net

185 This is rarely explored in two-dimensional magnetic semiconductors.

186 In two-dimensional magnets these effects manifest themselve

187 Our study predicts that two-dimensional magnets with weak spin-orbit coupling ca

188 dies (GWAS) are typically visualized using a two-dimensional Manhattan plot, displaying chromosomal l

189 ty reduction technique designed to produce a two-dimensional map of high-dimensional data.

190 Herein, we demonstrate a two-dimensional mass spectrometry (2DMS) technique on a

191 eptides by infrared multiphoton dissociation two-dimensional mass spectrometry (IRMPD 2DMS) is shown

192 d sulfur accumulates if the thickness of the two-dimensional material is small, whereas solid sulfur

193 higher codimension, such as the corners of a two-dimensional material.

194 However, field-effect transistors based on two-dimensional materials are still confronted with the

195 Our results establish that two-dimensional materials could enable the development o

196 Two-dimensional materials from layered van der Waals (vd

197 cogenides (TMDs) are one of the most studied two-dimensional materials in the last 5-10 years due to

198 Therefore, moire superlattices of two-dimensional materials manifest themselves as an inte

199 Two-dimensional materials provide extraordinary opportun

200 Polaritons in two-dimensional materials provide extreme light confinem

201 vides a conceptually new approach to achieve two-dimensional materials with hierarchical organization

202 found more recently in optical lattices and two-dimensional materials(4-9).

203 ation has been a key to provide high-quality two-dimensional materials, but despite improvements it i

204 ous electronic systems, which, combined with two-dimensional materials, could be exploited in many In

205 well as controlling the growth of sulfur on two-dimensional materials, could provide insights for th

206 The exceptional properties exhibited by two-dimensional materials, such as graphene, are rooted

207 ful to achieve optical non-reciprocity using two-dimensional materials.

208 ntal properties and potential application of two-dimensional materials.

209 challenge, especially for those derived from two-dimensional materials.

210 ters and a hexagonal boron nitride flake for two-dimensional materials.

211 Two-dimensional metal halide perovskites of Ruddlesden-P

212 nal charge density in rotationally symmetric two-dimensional metamaterials and find one-fourth and on

213 ches was achieved when labeling vertebrae on two-dimensional MIPs.

214 lattices, binary MOF-Au single crystals, and two-dimensional MOF nanorod assemblies.

215 y selective photocycloaddition reaction of a two-dimensional molecular network with defect-free basal

216 The layered two-dimensional molecularly woven material has long-rang

217 ivatives have traditionally been utilized in two-dimensional monocultures, in contrast to the multi-s

218 Analysis of the two-dimensional motion of cells between two rectangles w

219 and function for aluminosilicate zeolite MFI two-dimensional nanosheets before and after superheated

220 Both one- and two-dimensional nanostructures of lithium nitride, Li(3)

221 Two-dimensional NMR analyses of the products revealed O-

222 for beta-strand organization using multiple two-dimensional NMR and (13)C-(13)C dipolar recoupling e

223 MR-mass spectroscopy and one-dimensional and two-dimensional NMR experiments.

224 oluble residues of switchgrass and poplar by two-dimensional NMR spectral profiling.

225 It also uses two-dimensional NMR spectroscopic analysis, separation a

226 Moreover, one- and two-dimensional NMR spectroscopy experiments have allowe

227 d and their structures elucidated by one and two-dimensional nuclear magnetic resonance spectroscopy

228 This procedure reduces the two-dimensional numerical search for the maximum of the

229 While they are commonly portrayed as two dimensional objects, in reality magnetic skyrmions a

230 In this paper, we study the physics of a two-dimensional one-component reaction-diffusion system

231 Here, we present a two-dimensional optomechanical crystal resonator capable

232 n domain III (ED3)-targeting aptamers into a two-dimensional pattern precisely matching the spatial a

233 n be used as ligands to form highly ordered, two-dimensional, peptide-based metal-organic coordinatio

234 hilation highlights the unique attributes of two-dimensional perovskites as an exciting class of opto

235 Quasi-two-dimensional perovskites have emerged as a new materi

236 endent exciton diffusion and annihilation in two-dimensional perovskites, unraveling the key role of

237 This is realized using a two-dimensional phononic bandgap structure to host the o

238 We report a hexagonal GaN nanorod-based two-dimensional photonic crystal (PhC) slab for phosphor

239 ecently, this concept has been translated to two-dimensional photonic scenarios in connection with ho

240 by (subjective) gating of subpopulations on two-dimensional plots.

241 ng term frozen storage were identified using two-dimensional polyacrylamide gel electrophoresis coupl

242 single-layer, surface-supported, interwoven two-dimensional polymer(16) have also been reported.

243 The induction of macro and mesopores into two-dimensional porous covalent organic frameworks (COFs

244 nce depolarization allowed us to construct a two-dimensional proximity correlation map that defines t

245 We have used two-dimensional quantitative NMR to determine selectivel

246 iable relative angles, through semi-ordered, two-dimensional receptor networks with reduced Voronoi e

247 mension improves the resolution power of the two-dimensional relative mass defect plot and offers the

248 ing - Poincare maps produce state-of-the-art two-dimensional representations of cell trajectories on

249 imes were analyzed using steady and unsteady two-dimensional Reynolds-Averaged Navier Stokes, leading

250 d that in the absence of lateral inhibition, two-dimensional rhizoid cell groups (clusters) form.

251 s coupling and energy level matching between two-dimensional Ruddlesden-Popper perovskite and graphen

252 ions in artificial membranes and demonstrate two-dimensional self-assembled heterostructures of graph

253 Despite recent developments in two-dimensional self-assembly, most supramolecular 2D ma

254 As promising channel materials, two-dimensional semiconductors show excellent capabiliti

255 seriously limit reliable applications using two-dimensional semiconductors.

256 ity-mass spectrometry (IM-MS) provides rapid two-dimensional separation of ions based on their mobili

257 The structure of a 2D-COF consists of two dimensional sheets held together through covalent bo

258 Two-dimensional Si(2)Te(3) nanoplates with thicknesses o

259 t the Mo(2)(INA)(4) clusters assemble into a two-dimensional, single-layer framework.

260 We elucidate its binding mode using two-dimensional solid-state (19)F NMR spectroscopy in co

261 n is still limited to simplified problems in two dimensional space or straight motions.

262 We also simulated a two-dimensional spatial version of this model across a c

263 Time-resolved two-dimensional spectral imaging was performed to evalua

264 , with broad spectral coverage; we introduce two-dimensional spectroscopy and present results that de

265 Two-dimensional STED has been extensively used to elucid

266 l development has little influence on global two-dimensional stomatal patterning.

267 allowed us to predict anisotropic (that is, two-dimensional) strain levels on distorted Pt(111) surf

268 o our knowledge, method integrates a Vfold2D two-dimensional structure folding model with IsRNA coars

269 ll a hot topic, including the shaping of its two-dimensional structure into nanoribbons or nanobelts.

270 st of these studies concentrated on one- and two-dimensional structures due to the lack of approaches

271 ironment) of mesenchymal cells crawling on a two-dimensional substrate.

272 three-dimensional cell pair on a patterned (two-dimensional) substrate, a simple laboratory setup to

273 systems for their potential applications in two-dimensional superconductivity, electronics, photonic

274 node accompanied by a nearly dispersionless two-dimensional surface state.

275 Cell crawling on two-dimensional surfaces is a relatively well-understood

276 ls is important for single-cell migration on two-dimensional surfaces.

277 at tetratic-ordered phases emerge in a dense two-dimensional system of hard kites that are rotational

278 udy them comparing the living and non-living two-dimensional systems self-organizing at the spherical

279 However, the effects inherent to such two-dimensional systems, such as the excluded volume of

280 roximity screening of many-body phenomena in two-dimensional systems.

281 The 3.0-T sequences, such as two-dimensional T1-weighted spoiled gradient-echo and th

282 experiments can be performed, including the two-dimensional tandem mass scan (2D MS/MS scan) in whic

283 uction of the components for the analysis of two-dimensional (temporal and spectral) data.

284 onnected via robust phenazine linkage into a two-dimensional tetragonal framework that is stable unde

285 Two-dimensional THz spectroscopy reveals strong subcycle

286 histology is traditionally carried out using two-dimensional tissue sections, which allows for rapid

287 A quantum anomalous Hall (QAH) state is a two-dimensional topological insulating state that has a

288 Two-dimensional transition metal carbides/nitrides, know

289 While p-n homojunctions in two-dimensional transition metal dichalcogenide material

290 Charge carriers in two-dimensional transition metal dichalcogenides (TMDs),

291 rstanding the atomistic origin of defects in two-dimensional transition metal dichalcogenides, their

292 nsformations of surface functional groups in two-dimensional transition-metal carbides (MXenes) open

293 Strong many-body interaction in two-dimensional transitional metal dichalcogenides provi

294 Here we obtain the phase diagram of the two-dimensional triangular-lattice Hubbard model by stud

295 The exceptional plasticity of this two-dimensional van der Waals inorganic semiconductor is

296 long-range intrinsic magnetic orders in the two-dimensional van der Waals materials provide a new pl

297 e we report a general synthetic strategy for two-dimensional vdWH arrays between metallic transition-

298 This general synthesis of diverse two-dimensional vdWH arrays provides a versatile materia

299 g commercially available VR headsets or in a two-dimensional web browser such as Google Chrome.

300 TIPS-pentacene microcrystals using ultrafast two-dimensional white-light microscopy and discover a lo