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1 an endoplasmic reticulum and served as an ER biomimetic.
2 ures of the ene reductase XenA with selected biomimetics.
3  for investigations of biomineralization and biomimetics.
4                                              Biomimetic 2e(-) + 2H(+) is often viewed as a potential
5                             Development of a biomimetic 3D culture system for drug screening is neces
6    By comparison to 2D experiments; the more biomimetic 3D geometry and extracellular matrix in this
7               By sequestering phosvitin on a biomimetic 3D insoluble cationic framework at defined pH
8 ffectiveness of the combination of LIPUS and biomimetic 3D printing scaffolds as a valuable combinato
9                                        Smart biomimetics, a unique class of devices combining the mec
10 osomes or giant unilamellar vesicles, when a biomimetic actin cortex is grown at the inner layer of t
11 ical model of the cytoskeleton and designing biomimetic active materials.
12                             Furthermore, the biomimetic actuation when controlled by electric field s
13 4-ethylenedioxythiophene) (PEDOT) to achieve biomimetic actuation.
14                               Development of biomimetic actuators has been an essential motivation in
15 ch structures has very often been missing in biomimetic adhesives; in turn, their performance is sign
16 al type of organization may be regarded as a biomimetic alternative of columnar K(+)-water wires obse
17 s a new dimension to the structural study of biomimetic amphiphilic peptides with determination of mo
18 ilica nanoparticles for sustained release of biomimetic analog-stabilized amorphous calcium phosphate
19      These findings clearly demonstrate that biomimetic analogs of antifreeze (glyco)proteins should
20 ve led to a tremendous progress in realizing biomimetic and bioinspired optical materials and photoni
21 e rescaled by the model prediction, both the biomimetic and natural branches fall on the same master
22                This arrangement includes the biomimetic and organometallic Fe-C sigma bond, which ena
23 or ampullate (MA) silk desirable for various biomimetic and synthetic applications.
24 eatures is of interest for metamaterials and biomimetic applications.
25 his work illustrates a paradigm-shifting and biomimetic approach and contributes useful molecular ins
26                          Herein, we report a biomimetic approach for the synthesis of enantiomericall
27             Overall, this represents a novel biomimetic approach to generate protease-sensitive fibro
28                      Our results represent a biomimetic approach to obtaining salmahyrtisanes from hy
29                       We report here a novel biomimetic approach to the regeneration of human enamel.
30                                Based on this biomimetic approach, it is herein demonstrated that carb
31 ies of materials and interfaces generated by biomimetic approaches can be leveraged to develop effect
32  feasibility of developing nitrogenase-based biomimetic approaches to recycle C1 waste into fuel prod
33                                   The use of biomimetic approaches toward the production of nonsolid
34                                              Biomimetic architectures with Bouligand-type carbon nano
35 ostructures promises a class of well-defined biomimetic architectures with specific function.
36 o the "ene" reductase family show that these biomimetics are excellent analogues of the natural coenz
37 in vitro reconstitution techniques including biomimetic assays and single-molecule multi-color total
38 uture efforts in developing highly efficient biomimetic assays for interaction analysis and drug scre
39  strategy is the implementation of a unique, biomimetic asymmetric intramolecular oxa-Michael reactio
40 e that our 3D in vitro tumour model exhibits biomimetic attributes that may permit their use in study
41     Herein, for the first time, we propose a biomimetic biosensor for organophosphorus pesticide dete
42                                 The proposed biomimetic biosensor, denoted as SPE/PHA/mPEG, represent
43 short Fe-H bond like other structured [NiFe]-biomimetics, but this species is not basic enough to add
44                The combination of UCNPs with biomimetic cancer cell membranes embodies a novel materi
45                                              Biomimetic carbohydrate receptors ("synthetic lectins")
46         To explore this issue, we designed a Biomimetic Cardiac Tissue Model (BCTM) where various par
47                            Constructs showed biomimetic cartilage properties and uniform tissue growt
48                      This synthesis features biomimetic cascade reactions that involve both ionic and
49 he development of bioinorganic chemistry and biomimetic catalysis.
50 orts have culminated in the first successful biomimetic catalyst capable of efficient methane oxidati
51 zymatic proton-coupled electron transfer and biomimetic catalyst design.
52 s is to learn from the microbes to develop a biomimetic catalyst to accomplish the same chemical tran
53 quence-specific DNA by exploiting hematin as biomimetic catalyst toward in situ metallization.
54                           Alternatively, the biomimetic catalysts have arisen as a candidate for appl
55 ame cofactor may inspire the design of novel biomimetic catalysts performing H2-conversion even in th
56 ction proceeds under mild conditions using a biomimetic catalytic system based on a Mn(III) porphyrin
57 owing points are stressed: (i) the design of biomimetic cavity-based complexes, (ii) their correspond
58 t images of three coexisting lipid phases in biomimetic cell lipid membranes.
59 goal in synthetic biology is the assembly of biomimetic cell-like structures, which combine multiple
60 olyelectrolyte hydrogel systems to fabricate biomimetic cellular scaffolds for the repair of the tiss
61                       A nitrogenase-inspired biomimetic chalcogel system comprising double-cubane [Mo
62                                              Biomimetic chemical conversion studies using both simple
63 lt, the foldamer-ligand mixture behaves as a biomimetic chemical system with emergent properties, fun
64 chanism may have relevance to biological and biomimetic chemistry processes in general and gives insi
65  engineered by adopting synthetic biology or biomimetic chemistry to obtain tailor-made biosensors ha
66  ribozymes were encompassed as "products" of biomimetic chemistry.
67                  We used microfabricated 3-D biomimetic chips to validate predictions that shape-sens
68 would open up a multitude of applications in biomimetic circuitry and ultra-broadband imaging but pol
69 e [Mo2Fe6S8(SPh)3] and single-cubane (Fe4S4) biomimetic clusters demonstrates photocatalytic N2 fixat
70 atory problem may lead to the development of biomimetic coatings for passive radiative cooling of obj
71 level, the body response to a functionalized biomimetic collagen scaffold.
72              We engineered compartmentalized biomimetic colorectal tumouroids with stromal surrounds
73                                The design of biomimetic complexes for the modeling of metallo-enzyme
74 plied to other oxidoreductase enzymes and to biomimetic complexes.
75 cluster-containing enzymes and corresponding biomimetic complexes.
76                                        Here, biomimetic composites from aramid nanofibers interlaced
77 vel technological space for optomechanics of biomimetic composites, while their continuous spinning m
78                                   Here, a 3D biomimetic conch shell prototype is presented, which can
79 nd unreactive N-allyl-2-furfurylamines under biomimetic conditions, without the need for protecting g
80                                        These biomimetic constructs exhibit aligned architecture, mult
81 per' onto the monolayer surface, providing a biomimetic control mechanism that mimics the allosteric
82 nic supercontainers (MOSCs), a new family of biomimetic coordination capsules designed using sulfonyl
83 d gives valuable clues for the production of biomimetic counterparts based on major ampullate spider
84 provides an overview of the various types of biomimetic crossreactive sensor arrays (also referred to
85                                              Biomimetic crossreactive sensor arrays have been used to
86                                        Under biomimetic culture, the seeded constructs developed forc
87  nanocomposites, mouthwashes, medicines, and biomimetic dental materials.
88                 The increasing popularity of biomimetic design principles in nanomedicine has led to
89 r findings suggest a previously unidentified biomimetic design strategy in which tissue level materia
90 istic multiscale translation is essential to biomimetic design.
91 ro/nanoarchitectures, thus motivating us for biomimetic design.
92 ons and oscillatory stress can be made using biomimetic design.
93  filtered FTIR spectra to model the infrared biomimetic detection methodology.
94                      Employing MPhi-NPs as a biomimetic detoxification strategy shows promise for imp
95 acological agents, and in leveraging MPs for biomimetic devices.
96                                        A key biomimetic Diels-Alder dimerization was found to occur a
97  (1) and C (2) were accomplished through the biomimetic dimerization of (-)-dihydrovalparicine (3).
98                                 Although the biomimetic dimetal complex [LGa2(OH)2(H2O)2](3+) [L = 2,
99                                            A biomimetic double cyclization cascade, triggered by an o
100 ork opens many possibilities in the field of biomimetic droplets for fundamental studies of artificia
101                          We hypothesize that biomimetic electrical signals regulate the intrinsic bea
102 ctions is crucial in vivo, here we present a biomimetic emulsion system to characterize the passive E
103 anical system function and to facilitate the biomimetic enamel regrowth, matrix metalloproteinase-20
104 tem, this study brings us one step closer to biomimetic enamel regrowth.
105                                    The first biomimetic enantioselective total synthesis of (-)-commu
106 have potential applications in areas such as biomimetic encapsulation, drug delivery, catalysis and b
107 s the mechanistic basis for bio-inspired and biomimetic engineered vehicles.
108 iferation can be monitored within the tested biomimetic environment, paving the way to further develo
109 cially in three dimensional physico-chemical biomimetic environments including porous scaffolds.
110 CPR and CYP2C9 interact differently with the biomimetic ER and may, in addition to protein conformati
111                Our findings suggest that the biomimetic expansion of silicon into heterogeneous and d
112                                              Biomimetic extracellular matrix (ECM) topographies drive
113 ng an anthracene framework, which supports a biomimetic fac-C,N,S coordination motif to an iron(II) c
114 rspective brings together recent examples of biomimetic Fe and Mn complexes that can activate O2 in h
115 , or metal-oxo species, but the instances of biomimetic Fe/Mn complexes that react with dioxygen to y
116 An emerging paradigm is the incorporation of biomimetic features into these synthetic therapeutic con
117 d azide-alkyne cycloaddition ligation and by biomimetic formation of a native pattern of disulfides.
118 er spinning-mimicking strategy, offering the biomimetic function integration unattainable with curren
119                                              Biomimetic functional surfaces are attracting increasing
120 n of colloidal objects comprising integrated biomimetic functions is paving the way towards rudimenta
121  devices, as well as frontier strategies for biomimetic functions.
122         Reliable generation and detection of biomimetic gaseous gradients in vitro is challenging due
123       This study evaluates the reaction of a biomimetic heme-peroxo-copper complex, {[(DCHIm)(F8)Fe(I
124                                            A biomimetic heterogeneous catalyst combining palladium na
125 ue is described in which an interpenetrating biomimetic hydrogel is polymerized in situ throughout ca
126  novel method to synthesize a hyper-branched biomimetic hydrogel network across a soil matrix to impr
127 re systems and mesenchymal stem cells inside biomimetic hydrogels that supplied a 3D cell culture env
128  adsorption, and results in the formation of biomimetic hydroxyapatite through an amorphous calcium p
129       Key features include an asymmetric and biomimetic hydroxylative phenol dearomatization (HPD) re
130 idoxal-5'-phosphate (PLP) is introduced to a biomimetic indicator displacement assay for simultaneous
131                                              Biomimetics inspired by superstructures and extraordinar
132  The findings of this study demonstrate that biomimetic interactions between proteins and nanostructu
133 ght enable the design and fabrication of GNR-biomimetic interfaces.
134 es enable wide applications in, for example, biomimetic ion transport manipulation, molecular sieving
135 f the monomeric N-glycosylated human EGFR in biomimetic lipid bilayers that are, in parallel, also us
136                             The formation of biomimetic lipid membranes has the potential to provide
137  engineering enables the development of a 3D biomimetic liver model that recapitulates the native liv
138 ared optical breadboard system that uses the biomimetic mammalian color-detection approach to chemica
139 rning of multiple cell types in a predefined biomimetic manner.
140 shing the groundwork for a new generation of biomimetic material interfaces.
141  using the noncompetitive assay format via a biomimetic material, namely, poly(p-phenylene) beta-cycl
142  to our efforts to design and develop enamel biomimetic material.
143                          There is a need for biomimetic materials for use in blood-contacting devices
144  to accelerate the design and fabrication of biomimetic materials.
145 al properties unknown yet for other forms of biomimetic materials.
146 s direct components or as an inspiration for biomimetic materials.
147 ctional complexity within readily accessible biomimetic materials.
148             These properties inspire manmade biomimetic materials.
149 ther concerns like proteomics approaches and biomimetic media utilization, feature selection for data
150 we present fluorescently indexed multiplexed biomimetic membrane assays amenable to high-throughput f
151           We build fluorescently multiplexed biomimetic membrane assays by using varying amounts of a
152 onal properties of cell surface receptors in biomimetic membrane environments.
153                                        Using biomimetic membrane models we show that binding of the C
154           Partitioning of lipid molecules in biomimetic membranes is a model system for the study of
155 linoleoyl-CL with tetradocosahexaenoyl-CL in biomimetic membranes prevented formation of phospholipid
156 thods for their functional reconstitution in biomimetic membranes remain both challenging and limited
157 l provide a robust matrix for development of biomimetic membranes tailored to specific applications.
158 ed phospholipids readily incorporated within biomimetic membranes, including solid-supported bilayers
159 ality would revolutionize the development of biomimetic membranes.
160 m, thermal and silicon photonics, as well as biomimetic metasurfaces.
161         Inspired by biological systems, many biomimetic methods suggest fabrication of functional mat
162  to their inherent ability to self-assemble, biomimetic microelectronics can firmly yet gently attach
163                                    The novel biomimetic microflower that composed of numerous turnup
164 ion on RBC deformability was noted using our biomimetic microfluidic chip.
165                In this study, we developed a biomimetic microfluidic tumor microenvironment (bMTM) co
166                                          Our biomimetic microsystem provides an enabling platform to
167                                 Induction of biomimetic mineralization at near physiological conditio
168            Calcium phosphate bions (CPB) are biomimetic mineralo-organic nanoparticles which represen
169 for peripheral binding of dimeric tubulin to biomimetic "mitochondrial" membranes in a manner that di
170                         Here we develop a 3D biomimetic model for soft tissue repair and demonstrate
171 in-induced stresses within a two-dimensional biomimetic model of the disordered actomyosin cytoskelet
172 l-defined bioactive coatings, biosensors and biomimetic model systems.
173  An emerging challenge in tissue engineering biomimetic models is recapitulating the physiological co
174                                              Biomimetic models of these biological systems have been
175                 To address this deficiency a biomimetic molecular-level approach is developed that em
176 gn of synthetic molecules, such as aptamers, biomimetics, molecular imprinting polymers, peptide nucl
177 neral particles derived from soil-water show biomimetic morphologies, including large, round structur
178 monochromatic light to perform sophisticated biomimetic motions.
179 sel inflammation generation and an execution biomimetic nanocarrier B (NCB ) that can accumulate at t
180                   A platelet-membrane-coated biomimetic nanocarrier, which can sequentially target th
181 ding a firm foundation for creating tailored biomimetic nanocompartments for medical and biotechnolog
182                          Here the concept of biomimetic nanofibrillation, by copying the spiders' spi
183 y, this approach could be used to design new biomimetic nanoformulations with higher efficacy and imp
184 latelet-mimicking biological function of the biomimetic nanomotors offer efficient binding and isolat
185 cs studied, which underscores the utility of biomimetic nanoparticle-based neutralization and deliver
186 Here we report the development of macrophage biomimetic nanoparticles for the management of sepsis.
187 camouflaged nanoparticles are a new class of biomimetic nanoparticles that combine the unique functio
188 e creation of biocompatible, custom-tailored biomimetic nanoparticles with varying hybrid functionali
189 Here, it is reported on the fabrication of a biomimetic, nanoparticulate anticancer vaccine that is c
190                                        A new biomimetic nanoreactor design is presented based on canc
191                                The resulting biomimetic nanorobots possess a biological membrane coat
192 yrrole-3-acid carboxylic to perform the cTnT biomimetic nanosurface was obtained at 1:5 ratio.
193  hydride transfer with nicotinamide coenzyme biomimetics (NCBs) is critical to enhancing the performa
194 roduction of the chemicals is regulated by a biomimetic negative feedback loop, the "repressilator" n
195 ction networks, and may enable the design of biomimetic networks and of synthetic self-regulating and
196 rate the potential of the organic electronic biomimetic neuron in therapies involving long-range neur
197       Here, we present an organic electronic biomimetic neuron, with the capacity to precisely interv
198                                            A biomimetic nickel bis-diphosphine complex incorporating
199 nergy into mechanical motion are examples of biomimetic nonequilibrium systems.
200  on the rational design of HER catalysts and biomimetics of hydrogen-evolving enzymes.
201 stigate the efficiency of man-made synthetic biomimetics of the natural coenzymes NAD(P)H in redox bi
202 ity of our strategy are demonstrated through biomimetics of tissue morphogenesis for both plants and
203                                              Biomimetic olfactory biosensors use various biological c
204 Thus our study demonstrated that the in vivo biomimetic olfactory system could provide novel approach
205 at have been employed for realizing advanced biomimetic optical structures.
206 talytic activity of the natural enzymes, the biomimetic, or both, enabling the system to discriminate
207                     In selected cases, these biomimetics outperform the natural coenzymes.
208  to form tricin-(4'-O-beta)-linked dimers in biomimetic oxidations using peroxidase/hydrogen peroxide
209                       It features a scalable biomimetic oxidative dimerization that proceeds in excel
210     Subsequent exploration of their putative biomimetic oxonium ion formation-fragmentations reaction
211                           In conclusion, the biomimetic particulates showed a promising immunogenicit
212                    A systematic study of the biomimetic pathways to yezo'otogirin C under aerobic and
213 onditions, provide insight into biogenic and biomimetic pathways.
214 noconjugate was designed in which a designed biomimetic peptide LWWNSYY was immobilized to the surfac
215 ane proteins during the de novo synthesis of biomimetic phospholipid bilayers is described.
216                             Many natural and biomimetic platelet-matrix composites--such as nacre, si
217 ving directed cell migration, we developed a biomimetic platform that allows perturbation of microsca
218 a starting point for the design of two-stage biomimetic platforms for photoluminescence, separation,
219                                       From a biomimetic point of view, the complex 4 supersetDOPC sho
220 dable hydrogels using rationally engineered, biomimetic polymer-nanoparticle interactions.
221 y, we have established a bacteriophage-based biomimetic process, called 'self-templating assembly'.
222    Mineralization of fibrillar collagen with biomimetic process-directing agents has enabled scientis
223  practically valuable for their gelation and biomimetic properties but also serve as a potential carb
224 re formed and assembled into constructs with biomimetic properties have attracted significant attenti
225 lled inflammation in disease, harnessing the biomimetic properties of proresolving lipid mediators ha
226 We quantitatively reproduce these collective biomimetic properties using an isotropic active gel mode
227 des key insights for the molecular design of biomimetic protein- and peptide-based thermoplastic stru
228 its unique ligand environment, consisting of biomimetic pyridinylacyl and carbonyl ligands, as well a
229 ocessing in a biological environment such as biomimetic quantum networks and quantum sensors.
230 ementarity, have inspired the development of biomimetic receptors.
231 thesized to serve as functional monomers for biomimetic recognition of nicotine (Nic) by molecular im
232 ipid (DPhPG) with the motivation of creating biomimetic reconstructs of PSI reconstitution in DPhPG l
233 sion proteins are actively being explored as biomimetic replacements for IVIG therapy, which is deplo
234 lographic texture, providing inspiration for biomimetic replication strategies for synthetic self-ass
235  crystal nucleation, serving as an excellent biomimetic scaffolding strategy to rebuild natural bone
236                                        These biomimetic scaffolds are susceptible to protease-mediate
237 emporal control within synthetic, cell-laden biomimetic scaffolds.
238 anocomposite protein hydrogel with excellent biomimetic self-healing property is presented.
239 ber of the natural product family, including biomimetic, semisynthetic, and de novo synthetic strateg
240 d sensor was identified to be most useful as biomimetic sensing surface.
241                Under optimum conditions, the biomimetic sensor was employed for the amperometric dete
242 g platform that offers a greatly accelerated biomimetic sequestration based on a self-propelled carbo
243                         "Better-than-Nature" biomimetics should find widespread application in fine a
244 ing the skin's ability to sense and generate biomimetic signals.
245 d in order to produce the next generation of biomimetic silk fibers.
246  slime, along with recent efforts to produce biomimetic slime thread analogs, and end with a discussi
247 we present the first synthetic analogue with biomimetic {SN/S2} ligation which could be structurally
248 o- and nanoscale and of ion transport across biomimetic soft interfaces.
249 ovel molecularly imprinted polymers (MIP) as biomimetic specific receptors to establish rapid analysi
250 petus to the development of pultrusion-based biomimetic spinning devices.The natural production of si
251  which provides design guidelines for future biomimetic spinning systems.
252 rk lays the foundation for a novel, and more biomimetic, stimulation strategy with considerable poten
253 ring these biosynthetic pathways may lead to biomimetic strategies for organic synthesis of such comp
254 nted mechanisms mark a guideline for further biomimetic strategies to rationally design hard-soft int
255 ain elusive and subsequently inaccessible to biomimetic strategies.
256 ins elusive and subsequently inaccessible to biomimetic strategies.
257 ine and GB17 were completed through a common biomimetic strategy involving Diels-Alder reactions of u
258 gin of this hydromechanical coupling using a biomimetic strategy.
259 t oil/water separation solution based on our biomimetic structures was demonstrated.
260 d is applicable to a range of biological and biomimetic structures with graded 3D fibre texture at th
261                 Hydrogel microfish featuring biomimetic structures, locomotive capabilities, and func
262  blocks for designing of foldamers and other biomimetic structures.
263 h common porphyrinoid scaffolds employed for biomimetic studies.
264 rbs sensitive biological specimens on pliant biomimetic substrates (e.g., collagen and basement membr
265 o-/microfabrication allow the fabrication of biomimetic substrates for various biomedical application
266  and regenerative medicine by functioning as biomimetic substrates to manipulate cellular behaviors.
267 nover are O2 and H2O2, making the PEG-HCCs a biomimetic superoxide dismutase.
268                                              Biomimetic supramolecular dual networks: By mimicking th
269 ion, there have been significant advances in biomimetic surface functionalization of particles throug
270               Therefore, we have developed a biomimetic surface imprinting strategy for QCM studies o
271              The stepwise preparation of the biomimetic surface was characterized by cyclic and diffe
272                                          The biomimetic surface was obtained by a co-polymer matrix a
273                                        While biomimetic surrogates better model human disease, their
274                                      Concise biomimetic syntheses of the Strychnos-Strychnos-type bis
275                                              Biomimetic synthesis of artificial enamel is a promising
276 argo delivery functions of natural exosomes, biomimetic synthetic strategies are exploited to prepare
277         This research features an artificial biomimetic system which sustains delicate secondary and
278                                 Well-defined biomimetic systems are promising tools for investigating
279     However, unlike natural membranes, these biomimetic systems cannot sustain growth owing to an ina
280 tial applications for enhancing reactions in biomimetic systems through rational transport network de
281                                              Biomimetic technologies enable therapeutic particles to
282         This paper describes an alternative 'biomimetic' technology; whereby viral antigens were form
283                                  A versatile biomimetic theranostic agent based on magnetic melanin n
284 oward designer hydrogel scaffolds viable for biomimetic tissue engineering.
285 w facility and lowered perfusate pressure in biomimetic TM scaffolds populated with primary hTM cells
286 ance of the rat mesentery culture model as a biomimetic tool for investigating microvascular growth a
287 ngineering for the development of innovative biomimetic tools for nanobiotechnology and bioanalytical
288                                            A biomimetic total synthesis of racemic homodimericin A wa
289                       We report the concise, biomimetic total synthesis of the dimeric, Diels-Alder n
290  into this structure class and inspire novel biomimetic transformations leading to new chemical diver
291 oorganic chemistry, including biological and biomimetic transformations, and the use of molecular rec
292                   Here, the authors design a biomimetic triple anion helicate receptor whose selectiv
293                 Cancer cells cultured in our biomimetic tumouroids exhibited intratumoural heterogene
294 ar scientific and technological interest are biomimetic vesicles that are inspired by natural membran
295 addition, these adaptable materials can have biomimetic viscoelastic properties that make them well s
296 phase characteristics and fluidity of the ER biomimetic was characterized with fluorescence micrograp
297 e, a primary neurotransmitter chemical, in a biomimetic way.
298          The interactions of CPR with the ER biomimetic were directly observed by tracking single CPR
299    Molecularly imprinted polymers (MIPs) are biomimetics which can selectively bind to analytes of in
300                This architecture is arguably biomimetic while differing from sequence-defined polymer

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