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1 , 15 November 2015, Pages 234-244, 10.1016/j.bios.2015.06.005 are highly unlikely.
2 nd photoelectrochemical devices that require bio-abio interfaces that do not compromise the photoacti
3                                          The bio-accessibility of phenolics, flavonoids, rutin, beta-
4                                            A bio-acoustic levitational assembly method for engineerin
5            Benznidazole is a pro-drug and is bio-activated within the parasite by the mitochondrial n
6             Development of novel methods of (bio)activation is central to broadening the application
7 ient conditions was found to better preserve bio-active compounds and retard increases in MC, aw and
8  chemical analysis were used to identify the bio-active ethyl acetate fraction.
9 21CIP1 (CDKN1A), increased secretion of many bio-active factors (the senescence-associated secretory
10                            PMVDS is a unique bio-active vaccine delivery technology with broader appl
11 e solutions used to make PSS include several bio-adaptable solutions, mainly cell culture medium and
12 on can be enhanced by functionalization with bio-adhesive end-groups.
13 o cope with environment pressure and to face bio-aggressors notably through the production of biologi
14                                A pool of 59 (bio)analytes was screened, containing monosaccharides, p
15 bust with ability for multiplex detection of bio-analytes makes this method a facile and appealing se
16  and (iii) application of FDM technology to (bio)analytical research by demonstrating a broad range o
17 use of fused deposition modeling (FDM) in a (bio)analytical/lab-on-a-chip research laboratory is desc
18 equires novel sensing elements with advanced bio-analytical properties.
19 ion for 54 LCA studies that considered algae BioD and RD.
20                             Algae biodiesel (BioD) and renewable diesel (RD) have been recognized as
21                It depicts for researchers in bio- and chemocatalysis a road map of challenges and opp
22 ocyte (HaCaT) cell line was employed for the bio- and cyto-compatibility testing prior to the hemolys
23 k is a step forward in this direction, where bio- and electronic materials co-exist on one platform w
24                              A wide range of bio- and physicochemical techniques, such as a new capil
25                    As our analyses concerned bio-annotations of both high-quality protein coding gene
26               Across the production systems, BIO apples had consistently higher levels of fructose an
27 h further diversification of synthesis match bio-applications while reducing biotoxicity.
28 user can now perform quick, robust and easy (bio)assays anywhere and at any time.
29 sfection of MSCs with the mms6 gene there is bio-assimilated synthesis of intracytoplasmic magnetic n
30 mic pathogens, and prevention of terrorism's bio-attacks have promised the future of portable real-ti
31  improve peptide conformational rigidity and bio-availability.
32 obial processes responsible for transforming bio-available nitrogen species.
33 d the reduction-oxidation transformations of bio-available nitrogen.
34  HBs (Ab1) immobilized on the MNPs and hemin bio-bar-coded AuNPs probe labeled antibody (Ab2).
35  DNA/hemin on gold nanoparticles was used as bio-bar-coded nanoparticle probe.
36                                              Bio-barcode DNA based on gold nanoparticle (bDNA-GNPs) a
37                                         This bio-barcode DNA with known DNA sequence was then detecte
38 irst target-specific DNA probe 1 (1pDNA) and bio-barcode DNA, which acted as a signal reporter.
39 e present study, we developed a fluorescence bio-barcode technology to trace P. aeruginosa ETA.
40 f sustainability promotes the development of bio-based and biodegradable polymers, sometimes misleadi
41 an pave the way for the commercialization of bio-based chemicals.
42 thetic biochemistry approaches for producing bio-based chemicals.
43                                            A bio-based economy has the potential to provide sustainab
44 lulosic biomass a suitable feedstock for the bio-based economy, plants can be engineered to have decr
45 ities for the establishment of a sustainable bio-based economy.
46 mising foundation for the synthesis of novel bio-based materials for a variety of applications.
47                                              Bio-based routes to dicarboxylic acids are gaining atten
48                                              Bio-based unsaturated nylon-6,6 (unsaturated polyamide-6
49 trical current both in the dark (as a 'solar bio-battery') and in response to light (as a 'bio-solar-
50 device failure of engineered skeletal muscle bio-bots as a result of degradation by three classes of
51 w/w which is much higher than other reported bio-carriers.
52 rategy a real opportunity for the future of (bio)catalysis.
53 thN) have been proposed as intermediates of (bio)catalytic nitrogen fixation, yet experimental eviden
54 d complexity in their aroma profiles due to (bio)chemical interactions between the components.
55 idic component enabling diverse, in-droplet (bio)chemical manipulations.
56 ed directions such as are required to power (bio)chemical processes in nanocells.
57 ich is of broad significance for a range of (bio)chemical processes, including enzymatic transformati
58 ect their bioactivity, serum half-life, and (bio)chemical stability.
59                              While previous (bio)chemical studies show that phenolic substrates under
60 d of nuclei which contribute to a network of bio-chemical oscillators responsible for the slime mould
61 n effect deleterious nitrative or oxidative (bio)chemistry.
62 , reveal that the UCNP@mSiO2-Dopa agents are bio-compatible with low toxicity.
63  and antioxidant activity of chitosan-lignin bio-composite films.
64 ed meandering shaped morphologies underneath bio-concretionned rocky buildups.
65 s demonstrated its potential as an efficient bio-control agent, especially against stored grain pests
66 ae was further established as a platform for bio-conversion of chemically modified analogues of pleur
67 ingate as major products, which were further bio-converted into cis, cis-muconic acid (ccMA) and pyro
68 fter adjusting for clinical covariates, both bio-CVG and m-CVG procedures were associated with increa
69  bicuspid aortic valve than those undergoing bio-CVG or m-CVG procedures.
70 siderable promise for diverse environmental, bio-defence, clinical diagnostics, food safety, water an
71 (low shrinkage materials and preparation of (bio)degradable materials) of rROP monomer-containing mat
72                           We report the fast bio-degradation of PE by larvae of the wax moth Galleria
73 ods, and decoding for applications including bio-detection, imaging, and anti-counterfeiting.
74  approach using chitosan solution as a novel bio-dispersive agent for the dispersive liquid-liquid mi
75 he present study and for the first time, the bio-distribution and efficacy of noninvasive intranasal
76                                              Bio-distribution of both L and t-L were carried out in a
77                       For optimal protective bio-efficacy, the time required for phytochemicals and t
78                   Starch granules within the bio-elastomers affected the release of the antioxidant m
79 inly edible starch and RB powder the present bio-elastomers can be used in active packaging for a var
80 B) powder was incorporated into starch-based bio-elastomers to obtain flexible biocomposites with tun
81                                          The bio-elastomers were hydrophobic and resisted dissolution
82 found to increase the Young's modulus of the bio-elastomers without compromising their elongation abi
83 nules, RB powder and PDMS polymer within the bio-elastomers.
84 ace exhibited reversible on/off-switching of bio-electrocatalysis on changing the pH between 5 and 8,
85 usly as local light source to initiate photo(bio)electrochemical reactions while acting as sensitive
86        Microbial fuel cells (MFCs) are novel bio-electrochemical device for spontaneous or single ste
87 ansfer between the enzyme and electrode at a bio-electrochemically relevant potential via HTPS layer.
88 e electrochemical response of the fabricated bio-electrodes as a function of QA concentrations.
89 nt work; rapid, sensitive and cost-effective bio-electrodes were prepared to detect the trace amount
90 possibilities for fabricating self-powering, bio-electronic devices.
91                                              Bio-elimination pathways for 10-NO2-OA were evaluated in
92     Here, we examine these interactions in a bio-energetically constrained, spatially and temporally
93  43 253 sentences and 3984 candidates by our bio-entity recognizer based on the Protein Ontology.
94 from the human body while enabling efficient bio-fluid delivery to the transistor via vertical wickin
95 aneously collect, transmit and interrogate a bio-fluid.
96                                      In PHC, bio-fluids are analyzed using various diagnostic devices
97 e NiO nanowire foam can be manufactured with bio-friendly chemicals and low temperature processes wit
98 d EGOFET confirming reliable biosensing with bio-functional EGOFET immunosensor.
99 study aimed to investigate the molecular and bio-functional properties of protein fractions from Nige
100 lume by size-exclusion chromatography, using Bio-Gel P6 (1-6kDa).
101 y of science and economic fields, including (bio)geosciences, paleoecology, astrobiology, and mining.
102 etected for the aqueous leaf extract and its bio-guided separation resulted in the identification of
103       Computing operations performed on this bio-hybrid computing circuitry feature high repeatabilit
104 o explore the possibility to prepare smarter bio-hydrochar materials by utilizing algal blooms.
105 rting the algae cells into hollow mesoporous bio-hydrochar microspheres via hydrothermal carbonizatio
106     Taken together, our results suggest that Bio-IL conjugated hydrogels could be implemented and rea
107                                              Bio-IL conjugated hydrogels exhibited a wide range of hi
108 a conductive choline-based bio-ionic liquid (Bio-IL).
109 rom this problem, but weak signals make many bio-imaging applications impossible.
110                                      In-vivo bio-imaging in live brine shrimp Artemia confirmed that
111 namic observations not attainable with other bio-imaging modalities.
112  imaging has gained attention as a promising bio-imaging modality in situations where fluorescence im
113 bioscience domains (e.g. genomic, proteomic, bio-imaging) the ability to query over 12 000 analytic t
114 n the field of gene delivery, drug delivery, bio-imaging, tissue engineering, and antimicrobials.
115 ody composition was assessed with the use of bio-impedancemetry, and energy expenditure was measured
116 e, mobile animals are particularly useful as bio-indicators of environmental change at regional scale
117 mising candidate for application in food and bio-industries.
118 400 transcripts as enriched in the VMP using bio-informatic comparisons of Tag-seq and RNA-seq data,
119 nofluidics", with emphasis on the thought of bio-inspiration.
120 ld therefore unlock development of a host of bio inspired fibre spinning systems.
121                        This paper presents a bio-inspired adaptive micro-lens with electrically tunab
122 lementation of sparse coding algorithms in a bio-inspired approach using a 32 x 32 crossbar array of
123 eparation and decoupling of redox reactions, bio-inspired artificial systems typically lack applicabi
124                                   We propose bio-inspired electronics which adopt the fractal geometr
125 y multiplexed phase-matching that exploits a bio-inspired grating configuration.
126                                              Bio-inspired hexagonal and square honeycomb structures a
127 ture directions with regard to manufacturing bio-inspired hybrid materials are provided.
128  progress on the nano/micro-manufacturing of bio-inspired hybrid materials is then presented in detai
129 mechanism has implications for the design of bio-inspired light-harvesting antennas and the redesign
130 while spotlighting success and potential for bio-inspired manmade applications.
131                                         Such bio-inspired materials, whose pore sizes decrease across
132 ing interdisciplinary field that ranges from bio-inspired molecular design over nanomaterials and thi
133  a wide pH range allows us to integrate this bio-inspired nanomaterial either in an enzymatic fuel ce
134                                We describe a bio-inspired process to generate hierarchically defined
135 otential applications in wearable computing, bio-inspired robotics, and shape-programmable architectu
136           The determination of ACTZ with the bio-inspired sensor was evaluated using three different
137 ured sheets are preprogrammed to evolve into bio-inspired shapes (lotus flowers and shark skins).
138                                              Bio-inspired technologies have remarkable potential for
139                                          The bio-inspired white films do not lose their whiteness dur
140 bolic discrimination of apples from organic (BIO), integrated (IP) and low-input (LI) production.
141                     This unique in vivo nano-bio interaction in the sub-nanometre regime also slows d
142  only advance our understandings of the nano-bio interactions in kidneys but also offer a new pathway
143 s on our comprehensive understanding of nano-bio interactions in tumor microenvironments, which are c
144  light on nuanced and context-dependent nano-bio interactions within cells.
145  will provide a better understanding of nano-bio interactions, positively impacting nanomedicine deve
146               Moreover, understanding of the bio-interactions of the engineered nanoparticles used fo
147 er dictated largely by phenomena at the nano-bio interface.
148 and facile chemical functionality for stable bio-interface.
149       This system can potentially provide 3D bio-interfaces such as those needed for reconstruction a
150 ive polymers with a conductive choline-based bio-ionic liquid (Bio-IL).
151 the stability of hm(5)C in human cells using bio-isotopologues and LC-MS/HRMS.
152 uNPs) to create an integrated, dual function bio-label (biotin-MB-AuNPs) for both biorecognition and
153 urface and the dual-function biotin-MB-AuNPs bio-label, provides a simple and robust approach for det
154 bacterial two-hybrid assay and in vitro in a bio-layer interferometry assay.
155                                    ELISA and bio-layer interferometry measurements demonstrated that
156 eptide array, site-directed mutagenesis, and bio-layer interferometry, we identified several conserve
157 n calorimetry, microscale thermophoresis and bio-layer interferometry.
158  of graphene/zinc oxide nanocomposite by the bio-linker 1-pyrenebutyric acid N-hydroxysuccinimide est
159          A novel and versatile peptide-based bio-logic system capable of regulating cell function is
160 Detergents are usually used to extract these bio-macromolecules from the membranes and maintain them
161 ation of purely diamagnetic objects, such as bio-macromolecules or heavy metals.
162 pplications throughout synthetic biology and bio-manufacturing as they are able to sense a wide range
163 er exposure to cancer proteins are promising bio-markers for the early detection of cancer.
164  allow imaging of compositional contrast of (bio)materials and biological cells down to the nanoscale
165 study was to develop an environmental-benign bio-measure that could be used to purify dye-contaminate
166 e assessment of muscle or polymer materials (bio-)mechanics.
167 neration flat panel optical display devices, bio-medical applications, luminescent security ink and e
168  applications from displays, solar cells and bio-medical imaging to single-electron devices.
169 NA/RNA sequences is significant for both the bio-medical research and the discovery of new drugs.
170 d clustering approaches outside the scope of bio-medical research, with the additional ability to int
171 rent wards of the University Hospital Campus Bio-Medico.
172 he cargo-induced loss of the CPP affinity to bio-membranes.
173 -ray studies for the elucidation of complex (bio)molecular structures including metallo-proteins like
174  analysis and measurement of interactions in bio-molecular studies and cell-surface analysis without
175 facilitating the formation of early organic (bio) molecules.
176 y performed during the past 20 y on various (bio)molecules, the near-equilibrium regime of oligorotax
177 re for studying RNA interactions with other (bio)molecules.
178 NTs composite for the determination of other bio-molecules as well.
179 terials promise to transform medicine at the bio-nano interface.
180                The complete profiling of the bio/nanomaterials interface and interaction should have
181                                        These BiO nanorods were cast onto mass disposable graphite scr
182 for high-priority research subtopics at the "bio-nanosheet" interface that we hope will enable safe a
183                                The catalyzed bio-oil also contained fewer constituents based on GC-MS
184 ) as a catalyst was investigated to decrease bio-oil and increase py-gas yield for easier energy reco
185 that is a valuable soil amendment as well as bio-oil and pyrolysis gas (py-gas) that can be used for
186 iquid alkanes with high efficiency and yield.Bio-oil is a potential major source of renewable fuels a
187 py-gas yield nearly 2-fold, while decreasing bio-oil production.
188 ective hydrodeoxygenation of water-insoluble bio-oil to mixtures of alkanes with high carbon yield.
189                      The energy shifted from bio-oil to py-gas, indicating the potential for easier o
190         The pattern of semivolatile WSOCs in bio-oil was dominated by aromatic products from lignocel
191          The Ca and Fe in WB-biochar reduced bio-oil yield and increased py-gas yield.
192 poorly carbonized biochar resembled those in bio-oil, but the increasing charring intensity caused a
193                                      The raw bio-oil, however, is corrosive; therefore, employing it
194                                              Bio-oil, produced by the destructive distillation of che
195 arate high-value alkylphenols from pyrolysis bio-oil, produced directly from lignocellulosic biomass.
196      By applying this procedure to pyrolysis bio-oil, the primary products (phenol/4-alkylphenols and
197  from the corresponding vapors, collected as bio-oil.
198 tures in biochar and lignin-like moieties in bio-oil.
199 s that leverage linkage of CL, CLO and other bio-ontologies.
200 O integrates and extends ontologies from the bio-ontology community to drive a number of practical ap
201 ereby supporting the interoperability in the bio-ontology domain.
202 antibiotic levofloxacin are attached to this bio-orthogonal amino acid using copper-catalyzed click c
203                        These analogs contain bio-orthogonal chemical handles to which fluorescent tag
204 e, we utilized non-canonical amino acids and bio-orthogonal chemistry to site-specifically incorporat
205  azido-functionalized ceramides allowing for bio-orthogonal click-reactions to fluorescently label in
206  from Streptomyces mobaraensis, a successful bio-orthogonal labeling system was demonstrated.
207 oss-react with nontarget substrates (i.e. as bio-orthogonal labeling systems).
208 llular matrix synthesized in the presence of bio-orthogonal methionine analogs.
209                                  Here we use bio-orthogonal proteome labeling for detecting in vivo p
210 or replacements or operational partners with bio-orthogonal recognition properties.
211     The switch redirects the activity of the bio-orthogonal sCAR-T cells through the selective format
212 eport herein a new class of donepezil-based "bio-oxidizable" prodrugs 1 designed to be converted into
213 e performance of the host and microbiome, as bio-physical feedbacks may enhance stress tolerance thro
214                                              BIO PIs considered a range of computational needs import
215                                     However, BIO PIs said the most pressing unmet needs are training
216 ciences Directorate principal investigators (BIO PIs), nearly 90% indicated they are currently or wil
217 ght-driven proton-pumping activities of each bio-pixel.
218 uced as electrical current generated in each bio-pixel.
219 comprising light-activatable aqueous droplet bio-pixels.
220  a new method for interactome screening, the Bio-Plex Interactome Assay (BPIA), which allows identifi
221                                However, most bio-polarimetric assessments are performed using free-sp
222  the application of various types of natural bio-polymer and different active ingredients incorporate
223 structure and that the functionality-limited bio-polymer can have a novel solution for a functional n
224 a selection of common reference plastics and bio polymers.
225  properties of lassos in proteins and other (bio)polymers, as well as in other biological, physical a
226  users to analyze the topology of arbitrary (bio)polymers.
227 roperties does not reach that of the natural bio-polymers, and in particular proteins.
228 carbon change, the production of ethanol and bio-power appeared to have higher GHG emissions than pet
229 nd active catalysts for industrial food- and bio-processing applications.
230 target discovery, functional elucidation and bio-production.
231                      This review describes a bio-psycho-social approach to understanding and preventi
232      These studies suggest that interrelated bio-psycho-social channels involved in the development o
233 lso been viewed as promising alternatives to bio-receptors due to the inherent molecular recognition
234 bility derived from the low stability of the bio-recognition elements and low quality of the transduc
235 th affinity for HER2 was used to prepare the bio-recognition layer via self-assembly on interdigitate
236 bel-free and fluorescence techniques, making bio-recognition more robust and sensitive.
237 B(+)), a versatile organic molecule used for bio-recognition, was incorporated into a polymeric mixed
238                                      A novel bio-refinery approach would aim to produce a wider range
239  as systems biology, genetic engineering and bio-refining for optimizing algae strains.
240  contents as a first step towards industrial bio-refining.
241 f shot-gun proteomic technology to study the bio-remediation of environmental hazards by white-rot fu
242 etect luminescence from 10(6) CFU/mL of the bio-reporter, which corresponds to 10(7) photons/s with
243 ions of low molecular weight PEI improve its bio-responsiveness and yield delivery vehicles for nucle
244 apes that reveal important biomechanical and bio-rheological characteristics, e.g. their density, fra
245 metabolic changes over time for IP-, LI- and BIO-samples, mainly decreasing lipid and sucrose, and in
246  into the acidic bactericidal lumen and that bio-selection and changes in BabA binding properties thr
247 erest for simple and disposable paper-based (bio)sensing applications.
248 y open a new way for application in imaging, bio-sensing and on-chip all-optical signal processing op
249 pening up opportunities for optoelectronics, bio-sensing and other mid-infrared applications.
250 ly alter GO band gap for optoelectronics and bio-sensing applications.
251                   We study theoretically the bio-sensing capabilities of metal nanowire surface plasm
252                   The combination of various bio-sensing platforms within smartphone-integrated elect
253 nt aspects and methodologies concerning with bio-sensing techniques, including photonic-based detecti
254                 In line with this statement, bio-sensing, as a sensitive analytical method, opens nov
255 y, electrochemistry, medical diagnostics and bio-sensing.
256 ing integrated systems, wearable devices and bio-sensor electronics.
257  reveal that the use of this electrochemical bio-sensor may provide a potential platform for the dete
258 e capability of the proposed electrochemical bio-sensor was also checked to detect QA in the real sam
259  substantial increase in sensitivity of chem/bio sensors.
260               In contrast to "self-powered" (bio)sensors aiming to generate maximum energy output, we
261 ty and dynamic range of Prussian Blue based (bio)sensors in power generation mode are, respectively,
262                          Selectivity of the (bio)sensors in power generation mode is similarly high r
263                         Prussian Blue based (bio)sensors known to operate at 0.00 V versus Ag|AgCl re
264 ghtly higher and wider compared to the same (bio)sensors operated in the conventional three-electrode
265  customize and/or fabricate printable based (bio)sensors over the past 5 years, including several mod
266 iseless performances of Prussian Blue based (bio)sensors would open new horizons for electrochemical
267  medical diagnostics, therapeutics, and nano-bio separations.
268                               As the size of bio-sequence databases grows exponentially, the computat
269 gm to explore the role of linker histones in bio-signaling processes.
270 io-battery') and in response to light (as a 'bio-solar-panel') with potential applications in low-pow
271  able to navigate to salient locations using bio-sonar.
272 ML-antibody (beta=0.98, p<0.0001) whereas My Bio Source(R) kit results were not correlated with those
273 ility, reproducibility, and repeatability of BiO-SPE were also investigated.
274                                          The bio-specific binding interaction among the molecules was
275 simultaneous electroanalytical sensing using BiO-SPEs exhibited strong electrocatalytic activity towa
276 lts presented in this paper demonstrate that BiO-SPEs sensing platforms provide a potential candidate
277                                          The BiO-SPEs were evaluated toward the sensing of APAP and I
278 sposable graphite screen-printed electrodes (BiO-SPEs), allowing the ultrasensitive determination of
279 bust interface to couple biocompatible SPME (Bio-SPME) fibers to MS systems for direct electrospray i
280                Our results demonstrated that Bio-SPME-OPP-MS efficiently integrates sampling/sample c
281 ty to deform in response to certain external bio-stimuli.
282 P450 oxidoreductase (POR) to orchestrate the bio-synthesis of a plethora of commercially valuable com
283  Herein, we report polyproline as a minimum (bio)synthetic mimic of antifreeze proteins that is acces
284 ists, that can be easily broadened to other (bio)systems.
285                                          The Bio-TDS has been developed to assist researchers in retr
286                                          The Bio-TDS is a flexible retrieval system that affords user
287         One of the primary components of the Bio-TDS is the ontology and natural language processing
288                                          The Bio-TDS offers researchers the capacity to associate the
289 nce analytic tool retrieval systems with the Bio-TDS outperforming the others in terms of relevance a
290 te focusing on BIOLOGICAL DATA ANALYSIS: The Bio-TDS was compared to five similar bioscience analytic
291                                          The Bio-TDS's scientific impact was evaluated using sample q
292 tospirillum magneticum (AMB-1) bacteria as a bio-template to fabricate light-weight 3D solid structur
293                              We present Rust-Bio, the first general purpose bioinformatics library fo
294 pecific antibodies are considered attractive bio-therapeutic agents owing to their ability to target
295  development and production of biologics and bio-therapeutic formulations.
296 on and all research and production stages of bio-therapeutic products.
297 oth root size and the generation of a whole "bio-tooth" for therapeutic purposes.
298                                        After bio-treatment, the mesopore surface area and pore volume
299 methane adsorption capacities increase after bio-treatment, which is confirmed by the increase of mic
300 hly stable immunoassays for the detection of bio warfare agents in complex matrices.

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