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1 ical, or mechanical insulators, bearings, or adhesives.
2 r developing effective artificial underwater adhesives.
3 thin the primers of 3 commercially available adhesives.
4  surfaces as compared with those of existing adhesives.
5 -dentin interfaces created by etch-and-rinse adhesives.
6 th poor mechanical durability in these model adhesives.
7 microdevices and keratoprostheses, or tissue adhesives.
8 s the strongest ever measured for biological adhesives.
9 e was no difference in bond strength between adhesives.
10 lead-free alloys and electrically conductive adhesives.
11 s such as the specificities of intercellular adhesives.
12 esin-dentin interfaces of one-step self-etch adhesives.
13 e is also a long-standing problem in polymer adhesives.
14  to distinguish among high-performing dentin adhesives.
15  discriminating among high-performing dentin adhesives.
16 mber of products ranging from emulsifiers to adhesives.
17 re currently being prepared and evaluated as adhesives.
18 eneral principles underlying diverse botanic adhesives.
19 nd implications for large-scale bio-inspired adhesives.
20 exocytosis in the secretion of the permanent adhesives.
21  cure is a popular mode of curing for dental adhesives.
22 of geckos has inspired hundreds of synthetic adhesives.
23 n specimens prepared from the commercialized adhesives.
24 ion stage usually mediated by polysaccharide adhesives.
25 ve in a way not easily achieved by synthetic adhesives.
26 rformance and explaining differences between adhesives.
27 s in printable materials, cargo carriers and adhesives.
28              FG are mechanically the weakest adhesives.
29 ol (PEG) adhesives, and 3 albumin-based (AB) adhesives.
30 e contact for chronic use without sutures or adhesives.
31                       We applied 2 self-etch adhesives-Adper Prompt L-Pop (APLP, pH ~ 0.8) and Adper
32 rm mechanical properties, we evaluated model adhesives after 3 months of aqueous storage.
33 manufacture self-cleaning, re-attachable dry adhesives, although problems related to their durability
34 s offers guidance for the engineering of wet adhesives and coatings.
35  including theranostics, biosensors, optics, adhesives and coatings.
36 pired versatile new synthetic strategies for adhesives and coatings.
37 ctions, ranging from orb web construction to adhesives and cocoons.
38 ole of chemical interaction/reaction between adhesives and dentin.
39 devices, adaptive optical devices, smart dry adhesives and fasteners.
40 o many biological processes and to synthetic adhesives and manufactured coatings and composites.
41     This study investigated the influence of adhesives and marginal sealing on demineralization progr
42 were bonded with etch-and-rinse or self-etch adhesives and prepared for microtensile bond testing and
43 ious implications for the fabrication of dry adhesives and robotic systems inspired by the gecko's lo
44 ing at the margins of restorations depend on adhesives and significantly contribute to the progress o
45 ed the antimicrobial activity of synthesized adhesives and the DOX-containing eluates against Strepto
46 nship between nanophase separation in dentin adhesives and their long-term mechanical properties, we
47                                         When adhesives and/or composites are bonded to the tooth, wat
48 brin glues (FG), 3 polyethylene glycol (PEG) adhesives, and 3 albumin-based (AB) adhesives.
49 eins share no homology with any other marine adhesives, and a common sequence-basis that defines how
50  approved by FDA as surgery sealants, tissue adhesives, and are now being investigated as a vitreous
51 ials sciences by offering advanced coatings, adhesives, and glues.
52                                              Adhesives are commonly used in the manufacture of multil
53                                     Existing adhesives are cytotoxic, adhere weakly to tissues, or ca
54                           Biodendrimer-based adhesives are of potential use for repairing corneal wou
55 ngths approaching those of permanent bonding adhesives are possible as feature size is scaled down.
56                               Current dentin adhesives are sensitive to moisture, as evidenced by nan
57                                           CA adhesives are the strongest and most homogenous group in
58                       Newer, improved tissue adhesives are under development and may replace and surp
59 utility of compounds with such structures as adhesives arises in part because their isocyanate functi
60        This problem may soon be addressed by adhesives based on vertically aligned carbon nanotubes,
61 oth biologically and for design of synthetic adhesives, but the findings may be relevant to the chara
62 adding to clinical steps in the placement of adhesives, but their incorporation within dental adhesiv
63 e successful encapsulation of DOX within the adhesives-but, more important, to support the hypothesis
64 0 cm water pressure with experimental BisGMA adhesives by ethanol wet-bonding exhibited tensile stren
65 sue adhesives were included: 4 cyanoacrylate adhesives (CA), 2 fibrin glues (FG), 3 polyethylene glyc
66                                  The mimetic adhesives can be alternatively binding-on and lifting-of
67    We tested the hypothesis that resin-based adhesives can be used for such fabrication without compr
68                                 Fibrin-based adhesives carry the disadvantages of prolonged preparati
69  proteins underlie the elasticity of natural adhesives, cell adhesion proteins, and muscle proteins.
70 -dentin interfaces created by commercialized adhesives challenges its clinical effectiveness as a mec
71 ed strongly with mechanical strength for all adhesives combined.
72  increasing curing time between the modified adhesives compared to SBMP.
73                                   Reversible adhesives composed of renewable materials are presented
74                      These simple, non-tacky adhesives consist of natural rubber impregnated into sti
75  descended to ~50% in enamel, whereas TPO+4E adhesives consistently scored ~80% DC across the enamel-
76           We report a bioinspired design for adhesives consisting of two layers: an adhesive surface
77 vestigate the antibacterial effect of dental adhesives containing dimethylaminododecyl methacrylate (
78                           In conclusion, the adhesives containing DMADDM had remarkable antimicrobial
79 s known on the mechanical strength of tissue adhesives directly after application.
80 rinted thermoplastic electrically conductive adhesives (ECA), which takes the advantage of the capill
81                                  None of the adhesives eluates were cytotoxic to the human dental pul
82                                        These adhesives exhibit highly desirable properties for dynami
83 le bond strength was enhanced for 2 types of adhesives following the addition of both inhibitors.
84 s of environmentally-responsible, reversible adhesives for a wide variety of applications.
85  comonomer in the formulation of hydrophobic adhesives for ethanol wet-bonding is a concern, due to i
86 cture can help in designing better synthetic adhesives for humid environments.
87 velopment of medicine-containing patches and adhesives for intraoral use have led to a new approach f
88       Translation of existing gecko-inspired adhesives for medical applications is complex, as multip
89 ous devices to be integrated with large-area adhesives for packaging.
90 ve mechanisms and in the design of synthetic adhesives for soft substrates (including for biomedical
91 rfaces in aqueous environments in which most adhesives function poorly.
92             When applied to enamel, TPO-only adhesives had ~80% DC in resin, which gradually descende
93                      Many natural underwater adhesives harness hierarchically assembled amyloid nanos
94 sives, but their incorporation within dental adhesives has not been fully explored.
95                  For instance, cyanoacrylate adhesives have been shown to cause foreign-body sensatio
96                       However, both of these adhesives have certain limitations.
97             Consequently, polymeric hydrogel adhesives have emerged as essential materials for wound
98                       Fibrillar, or "hairy," adhesives have evolved multiple times independently with
99                                Antibacterial adhesives have favorable prospects to inhibit biofilms a
100                                       Tissue adhesives have recently been investigated as alternate m
101                                        Their adhesives have unique attributes that define them as tar
102                                    Synthetic adhesives have yet to overcome this fundamental challeng
103  and to compare the interfacial integrity of adhesives in cavities through 3-dimensional (3D) image a
104 es has very often been missing in biomimetic adhesives; in turn, their performance is significantly l
105 n of the biobased materials makes salamander adhesives interesting for practical applications in the
106 responsible for the performance of fibrillar adhesives, it will be important to take advantage of the
107 s implications for the strength of polymeric adhesives; it also suggests a method for patterning thin
108                                        These adhesives kill both Gram-negative and Gram-positive bact
109 lved one of the most versatile and effective adhesives known.
110                               This family of adhesives may be useful in many areas of application, in
111 eport strong and multi-functional underwater adhesives obtained from fusing mussel foot proteins (Mfp
112             We have found that the temporary adhesives of cyprid are produced by the clustered tempor
113 revealed when comparing oyster cement to the adhesives of other marine organisms.
114                  Whereas currently available adhesives offer an alternative to sutures, other novel b
115    The adhesive characteristics of fibrillar adhesives on a soft deformable membrane are reported.
116 lymerization efficacies of the two self-etch adhesives on dentin were apparently different.
117 ration (OR, 1.40; 95% CI, 1.06-1.84), use of adhesives on patients (OR, 1.65; 95% CI, 1.22-2.24), and
118  biointerfaces with hydrophobic methacrylate adhesives on wet surfaces.
119 ligosaccharides (MSOs) that function as anti-adhesives once provided to the neonate.
120                   Synthesis of the permanent adhesives only occurs during the early cyprid stage, and
121 livery to tissues and cultures, and serve as adhesives or barriers between tissue and material surfac
122 c constituents of the filter matrix, such as adhesives or binders was likely the main formaldehyde so
123 pment of bio-inspired devices such as tissue adhesives or needles, trocars, and vascular tunnelers wh
124 es both natural and synthetic gecko-inspired adhesives, over 14 orders of magnitude in adhesive force
125 mm x 4 mm), among the strongest pure CNT dry adhesives, over a temperature range from -196 to 1,000 d
126   Several different appendages, adhesins and adhesives play roles during attachment, and foster the t
127 te the recent progress in and demand for wet adhesives, practical underwater adhesion remains limited
128           The results confirmed that stiffer adhesives provide higher resistance to failure.
129                          Experimental BisGMA adhesives provide the proof of concept that relatively h
130                   Results showed that TPO+4E adhesives reached DC similar to TPO-only counterparts up
131     Thus, designing biomimetic amyloid-based adhesives remains challenging.
132  that defines how nanostructures function as adhesives remains undiscovered.
133 red and bio-derived protein-based underwater adhesives reported thus far.
134                             Polymeric dental adhesives require the formation of densely crosslinked n
135                               Chemical-based adhesives require tissue-specific reactive chemistry, ty
136                                   Developing adhesives requires addressing design issues including fi
137 ment and use of polymeric hydrogels as wound adhesives, sealants, and hemostats, their design require
138 ent design elements of both gecko and mussel adhesives, should be useful for reversible attachment to
139                                 Conventional adhesives show a decrease in the adhesion force with inc
140 or to the development of novel self-cleaning adhesives, smart surfaces, microelectromechanical system
141 erences were greatest for cleaning products, adhesives/solvents, and gases/vapors.
142 tics for instrument cleaning and exposure to adhesives/solvents.
143 rogress was slower in the fluoride-releasing adhesives SP and BF and significantly different from SB,
144 d in a wide range of applications, including adhesives, structural and electrical laminates.
145 y, the introduction of cyanoacrylate tissues adhesives such as Histoacryl Blue (Trihawk International
146 s study provides new insight into the larval adhesives system of thoracican barnacles.
147 platform in the future for discovery of anti-adhesives targeted for strain and species specificity.
148 merous applications in reinforcing polymers, adhesives, textiles, medical devices, metallic alloys, a
149 medical need for tough biodegradable polymer adhesives that can adapt to or recover from various mech
150 ported in resin-dentin interfaces created by adhesives that contain 10-methacryloyloxydecyl dihydroge
151                                    Self-etch adhesives that etch and prime simultaneously are becomin
152     Marine mussels secrete strong underwater adhesives that have been mimicked in synthetic systems.
153 inhibitors into the synthesis of therapeutic adhesives that may enhance the longevity of hybrid layer
154                                              Adhesives that selectively debond from a surface by stim
155 itive behaviour of carbon nanotube (CNT) dry adhesives that show a temperature-enhanced adhesion stre
156  top, we have created gecko-foot-mimetic dry adhesives that show macroscopic adhesive forces of appro
157  observations suggest that polymerization of adhesives that underwent insufficient light cure is salv
158  if such self-cure phenomenon takes place in adhesives that underwent prior inadequate light cure and
159 b-weaving spiders have evolved well-designed adhesives to capture preys.
160 ed 10-MDP-containing self-etch and universal adhesives to human dentin.
161  by integration of film-terminated fibrillar adhesives to hybrid nematic liquid crystal network (LCN)
162 te rapid deterioration of the ability of the adhesives to stick to dentine, clinical studies show tha
163  the morphology of 81 species with fibrillar adhesives to test the hypothesis that packing density of
164 -coloured plastic dental fillings secured by adhesives to tooth structures are widely used to fix dec
165 rrently available and investigational tissue adhesives used for corneal incisions.
166 literature on the use of a variety of tissue adhesives used to seal corneal incisions in cataract sur
167 ly, the mechanical properties of these model adhesives varied from 'minimal change' to 'significant d
168 egree of conversion (DC) of HAp-incorporated adhesives was monitored by infrared spectroscopy during
169  the chemical interaction between dentin and adhesives was responsible for the observations.
170 lp facilitate the next generation of aqueous adhesives, we performed a combination of surface forces
171                                     Selected adhesives were allowed to etch and extract HAp from enam
172 (pizza and pastry) produced with 5 different adhesives were analysed by GC-O-MS.
173                     These biodendrimer-based adhesives were applied directly to a 4.1-mm linear centr
174                                       Dentin adhesives were applied to the surface of sound dentin di
175                  Biodendrimer-based hydrogel adhesives were derived from biocompatible building block
176       A total of 25 different compounds from adhesives were detected in these laminates.
177                         Seven commercialized adhesives were examined: Adhese Universal (Ivoclar-Vivad
178                              Model self-etch adhesives were formulated with various components, inclu
179                       Twelve surgical tissue adhesives were included: 4 cyanoacrylate adhesives (CA),
180                     Model methacrylate-based adhesives were mixed with different amounts of water to
181                                           CA adhesives were stronger than AB (T: P = 0.017; S: P = 0.
182                                          Two adhesives were tested, one a commercial epoxy resin and
183                                   Commercial adhesives were used to bond the paint to various substra
184  leaking pressures were determined for these adhesives when used to seal 4.1-mm central lacerations a
185 s provides an analogy to mussel and barnacle adhesives whereas the high inorganic content is exclusiv
186 s)-into synthetic, cost-effective underwater adhesives with adjustable nano- and macroscale character
187  non-covalent interactions for the design of adhesives with advanced functionalities such as stimuli
188 on polymerization effectiveness of self-etch adhesives with different pHs has rarely been studied.
189 rfaces, and a broad range of animal secreted adhesives with environment-dependent properties.
190 luorometric assay and zymography showed that adhesives with MMP inhibitors had high affinity toward b
191 pplied to the development of various dry CNT adhesives with novel features.
192 d rheology of a comprehensive list of tissue adhesives with regard to colorectal adhesiveness.
193                    Hand-sized gecko-inspired adhesives with reversible force capacities as high as 29
194 identified a number of EWs as potential anti-adhesives, with some as strain- or species-specific.
195 itu zymography within the HLs of both tested adhesives, with XPB higher than CSE ( P < 0.05).
196                                Ideally these adhesives would also have the ability to deliver drugs o
197  many areas of application, including tissue adhesives, wound dressings, and tissue repair.

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