2007
225. I. Willner, B. Willner, E.
Katz
Biomolecule – nanoparticle hybrid
systems for bioelectronic applications.
Bioelectrochemistry
2007, 70, 2-11.
226. B. Shlyahovsky, D. Li, E.
Katz, I.
Willner
Proteins modified with DNAzymes
or aptamers act as biosensors or biosensor labels.
Biosens.
Bioelectron. 2007, 22, 2570-2576.
227. M. Wörner, O.
Lioubashevski, M.T. Basel, S. Niebler, E.
Gogritchiani, N. Egner, C. Heinz, J. Hoferer,
M. Cippolloni, K. Janik,
E.
Katz,
A.M. Braun, I. Willner, M. Niederweis, S.H. Bossmann.
Characterization of
nanostructured surfaces generated by reconstitution of the porin MspA
from Mycobacterium smegmatis.
Small 2007, 3, 1084-1097.
228. O. Lioubashevski, E.
Katz, I.
Willner
Effects of magnetic field
directed orthogonally to surfaces on electrochemical processes.
J.
Phys. Chem. C 2007, 111, 6024-6032.
229. I. Tokarev, M. Orlov,
E. Katz, S.
Minko
An electrochemical gate
based on a stimuli-responsive membrane associated with an electrode
surface.
J. Phys. Chem. B 2007, 111, 12141-12145.
2008
230. I.V. Sevonkaev, E.
Katz
Biosensors based on immobilized
insects fragments.
J.
Solid State Electrochem. 2008,
12, 7-14.
231. S. Vasilyev, M. Pita, E.
Katz
Logic gates based on magnetic
nanoparticles functionalized with a bioelectrocatalytic system.
Electroanalysis
2008, 20, 22-29.
232. L. Fedichkin, E.
Katz, V.
Privman
Error correction and
digitalization concepts in biochemical computing.
J.
Comput. Theor. Nanoscience 2008,
5, 36-43.
233. M. Pita, E.
Katz
Multiple logic gates based
on electrically wired surface-reconstituted enzymes.
J. Am.
Chem. Soc. 2008, 130, 36-37.
234. M. Motornov, R. Sheparovych,
E.
Katz, S.
Minko
Chemical gating with
nanostructured responsive polymer brushes: mixed brush versus
homopolymer brush.
ACS Nano 2008, 2, 41-52.
235. G. Strack, M. Ornatska, M.
Pita, E.
Katz
Biocomputing security
system: Concatenated enzyme-based logic gates operating as a
biomolecular keypad lock.
J. Am. Chem. Soc. 2008, 130, 4234-4235 (paper was highligted by ACS and Chem.
& Eng. News).
236. J. Jimenez, R. Sheparovych,
M. Pita, A. Narvaez Garcia, E. Dominguez, S. Minko, E.
Katz
Magneto-induced
self-assembling of conductive nanowires for biosensor applications.
J. Phys.
Chem. C 2008, 112, 7337-7344.
237. G. Strack, M. Pita, M.
Ornatska, E.
Katz
Boolean logic gates using
enzymes as input signals.
ChemBioChem 2008, 9, 1260-1266.
238. E. Kulla, E.
Katz
Biosensor techniques used
for determination of telomerase activity in cancer cells.
Sensors 2008, 8, 347-369.
239. E.
Katz
Several (more than 30) entries in
the dictionary,
In: Electrochemical
Dictionary, A.J.
Bard, G. Inzelt, F. Scholz (Eds.),
Springer, 2008.
240. E.
Katz
Bionanotransporters
In: Biomolecular
Catalysis - Nanoscale
Science and Technology ,
Jungbae Kim, Ping Wang (Eds.)
ACS symposium series book,
Washington
D.C., 2008, pp. 375-393.
241. E.
Katz
DNA-functionalized carbon
nanotubes (pp. 73-75)
DNA-functionalized
nanoparticles (pp. 75-76)
Nucleic
Acids from A to Z - A Concise
Encyclopedia (S. Müller,
Ed.)
Wiley-VCH, Weinheim,
Germany, 2008.
242. T.K. Tam, M. Ornatska, M.
Pita, S. Minko, E.
Katz
Polymer brush-modified
electrode with switchable and tunable redox activity for bioelectronic
applications.
J. Phys. Chem. C 2008, 112, 8438-8445.
243. J. Gun, M.J. Schöning,
M.H. Abouzar, A. Poghossian, E.
Katz
Field-effect
nanoparticle-based glucose sensor on a chip: Amplification effect of
co-immobilized redox species.
Electroanalysis 2008, 20, 1748-1753.
244. V. Privman,
G. Strack, D. Solenov, M. Pita, E. Katz
Optimization of enzymatic
biochemical logic for noise reduction and
scalability:
How many biocomputing gates
can be interconnected in a
circuit?
J. Phys. Chem. B 2008, 112, 11777-11784.
245. T.K. Tam, J. Zhou, M. Pita,
M. Ornatska, S. Minko, E.
Katz
Biochemically controlled
bioelectrocatalytic interface.
J. Am.
Chem. Soc. 2008, 130, 10888-10889.
246. M. Pita, L. Cui, R.M.
Gaikwad, E.
Katz, I. Sokolov
High sensitivity molecular
detection with ELISA–type immunosensing
Nanotechnology
2008, 19, art. # 375502.
247. M. Motornov, J. Zhou, M.
Pita, V. Gopishetty, I. Tokarev, E.
Katz, S.
Minko
“Chemical transformers” from
nanoparticle ensembles operated with logic.
Nano
Lett. 2008, 8, 2993-2997.
248. M. Pita, M. Krämer, J.
Zhou, A. Poghossian, M.J. Schöning, V.M. Fernández, E.
Katz
Optoelectronic properties of
nanostructured ensembles controlled by biomolecular logic systems.
ACS Nano 2008, 2, 2160-2166.
2009
249. J. Zhou, T.K. Tam, M. Pita, M.
Ornatska, S. Minko, E.
Katz
Bioelectrocatylic system coupled
with enzyme-based biocomputing
ensembles performing Boolean logic operations:
Approaching “smart”
physiologically controlled biointerfaces.
ACS
Appl. Mater. Interfaces 2009,
1, 144-149.
250. M. Pita, S. Minko, E.
Katz
Enzyme-based logic systems and
their applications for novel multi-signal-responsive materials
Journal
of Materials Science: Materials in Medicine 2009, 20, 457-462.
251. M. Pita, E.
Katz
Switchable electrodes: How can the
system complexity be scaled up?
Electroanalysis
2009, 21, 252-260.
252. M. Krämer, M. Pita, J.
Zhou, M. Ornatska, A. Poghossian, M.J. Schöning, E.
Katz
Coupling of biocomputing
systems with electronic chips: Electronic interface for transduction of
biochemical information.
J. Phys.
Chem. C 2009, 113, 2573-2579.
253. L. Amir, T.K. Tam, M. Pita,
M.M. Meijler, L. Alfonta, E.
Katz
Biofuel cell controlled by
enzyme logic systems.
J. Am.
Chem. Soc. 2009, 131, 826-832.
254. M. Privman, T.K. Tam, M.
Pita, E.
Katz
Switchable electrode
controlled by enzyme logic network system:
Approaching physiologically
regulated bioelectronics.
J. Am.
Chem. Soc. 2009, 131, 1314-1321.
255. M. Motornov, J. Zhou, M.
Pita, I. Tokarev, V. Gopishetty, E.
Katz, S.
Minko
An integrated multifunctional
nanosystem from command nanoparticles and enzymes.
Small 2009, 5, 817-820.
256. I. Tokarev, V. Gopishetty,
J. Zhou, M. Pita, M. Motornov, E.
Katz, S.
Minko
Stimuli-responsive hydrogel
membranes coupled with biocatalytic processes.
ACS Appl.
Mater. Interfaces 2009, 1, 532-536.
257. V. Privman, M.A.
Arugula, J. Halámek, M. Pita, E. Katz
Network analysis of
biochemical logic for noise reduction and stability: A system of three
coupled enzymatic AND gates.
J. Phys. Chem. B 2009, 113, 5301-5310.
258. J. Zhou, G. Melman, M. Pita,
M. Ornatska, X. Wang, A. Melman, E.
Katz
Biomolecular oxidative
damage activated by enzyme logic systems: Biologically inspired
approach.
ChemBioChem
2009, 10, 1084-1090.
259. M. Pita, J. Zhou, K.M.
Manesh, J. Halámek, E.
Katz, J.
Wang
Enzyme logic gates for
assessing physiological conditions during an injury: Towards digital
sensors and actuators.
Sens.
Actuat. B 2009, 139, 631-636.
260. M. Pita, T.K. Tam, S. Minko,
E.
Katz
Dual magneto-biochemical
logic control of electrochemical processes based on local interfacial
pH changes.
ACS Appl.
Mater. Interfaces 2009, 1, 1166-1168.
261. T.K. Tam, M. Pita, M.
Ornatska, E.
Katz
Biofuel cell controlled by
enzyme logic network – approaching physiologically regulated devices.
Bioelectrochemistry 2009, 76, 4-9.
262. T.K. Tam, M. Pita, E.
Katz
Enzyme logic network
analyzing combinations of biochemical inputs and
producing fluorescent output signals:
Towards multi-signal digital
biosensors
Sens.
Actuat. B 2009, 140, 1-4.
263. K.M. Manesh, J.
Halámek, M. Pita, J. Zhou, T.K. Tam, P.
Santhosh, M.-C. Chuang, J.R. Windmiller, D. Abidin, E.
Katz, J.
Wang
Enzyme logic gates for the
digital analysis of physiological level upon injury.
Biosens.
Bioelectron. 2009, 24, 3569-3574.
264. X. Wang, J. Zhou, T.K. Tam, E.
Katz, M.
Pita
Switchable electrode
controlled by Boolean logic gates using enzymes as input signals.
Bioelectrochemistry 2009, 77, 69-73.
265. D. Melnikov, G. Strack,
M. Pita, V. Privman, E. Katz
Analog noise reduction in
enzymatic logic gates.
J. Phys. Chem. B 2009, 113, 10472-10479.
266. M.A. Arugula, J.
Halámek, E.
Katz,
D. Melnikov, M. Pita, V. Privman, G. Strack
Optimization of enzymatic logic
gates and networks for noise reduction and stability.
Second
International Conference on Advances in Circuits, Electronics
and Micro-Electronics,
Proceedings, IEEE Comp. Soc. Publ.
(Los
Alamitos, California) 2009,
1-7.
267. M. Motornov, T.K. Tam, M.
Pita, I. Tokarev, E.
Katz, S
Minko
Switchable selectivity for
gating ion transport with mixed polyelectrolyte brushes: Approaching
“smart” drug delivery systems.
Nanotechnology 2009, art.# 434006.
268. G. Strack, S. Chinnapareddy,
D. Volkov, J. Halámek, M. Pita, I. Sokolov, E.
Katz
Logic networks based on
immunorecognition processes.
J. Phys.
Chem. B 2009, 113, 12154-12159.
269. T.K. Tam, G. Strack, M.
Pita, E.
Katz
Biofuel cell logically
controlled by antigen-antibody recognition: Towards immune regulated
bioelectronic devices.
J. Amer.
Chem. Soc. 2009, 131, 11670-11671.
270. V. Privman, V. Pedrosa, D.
Melnikov, M. Pita, A. Simonian, E.
Katz
Enzymatic AND-gate based on
electrode-immobilized glucose-6-phosphate
dehydrogenase:
Towards digital biosensors
and biochemical logic systems
with low noise.
Biosens.
Bioelectron. 2009, 25, 695-701.
271. M. Pita,
G. Strack, K. MacVittie, J. Zhou, E. Katz
Set-reset flip-flop memory
based on enzyme reactions: Towards memory systems controlled by
biochemical pathways.
J.
Phys. Chem. B 2009, 113, 16071-16076.
272. J. Zhou, M.A. Arugula, J.
Halámek, M. Pita, E. Katz
Enzyme-based NAND and NOR
logic gates with modular design.
J. Phys. Chem. B 2009, 113, 16065-16070.
273. E. Katz, M.
Pita
Biofuel cells controlled by
logically processed biochemical signals:
Towards physiologically regulated bioelectronic devices. (Concept paper)
Chem. Eur.
J. 2009, 15, 12554-12564.
274. A. Poghossian, M.
Krämer, M.H. Abouzar, M. Pita, E.
Katz, M.J.
Schöning
Interfacing of biocomputing
systems with silicon chips: Enzyme logic gates based on field-effect
devices.
Procedia
Chemistry
2009, 1, 682-685,
2010
275. V. Bychkova, A. Shvarev, J.
Zhou, M. Pita, E.
Katz
Enzyme logic gate associated
with a single responsive microparticle: Scaling biocomputing to
microsize systems.
Chem.
Commun. 2010, 46, 94-96.
276. T.K. Tam, M. Pita, O.
Trotsenko, M. Motornov, I. Tokarev, J. Halámek, S. Minko, E.
Katz
Reversible “closing” of an
electrode interface functionalized with a polymer brush by an
electrochemical signal.
Langmuir 2010, 26, 4506-4513.
277. I. Tokarev, I. Tokareva, V.
Gopishetty, E.
Katz, S. Minko
Specific
biochemical-to-optical signal transduction by responsive thin
hydrogel films loaded with noble metal nanoparticles: from LSPR
nanosensors to materials research.
Adv.
Matter. 2010, 22, 1412-1416.
278. T.K. Tam, M. Pita, M.
Motornov, I. Tokarev, S. Minko, E.
Katz
Electrochemical
nanotransistor from mixed polymer brush.
Adv.
Mater. 2010, 22, 1863-1866.
279. T.K. Tam, M. Pita, M.
Motornov, I. Tokarev, S. Minko, E.
Katz
Modified electrodes with
switchable selectivity for cationic and anionic redox species.
Electroanalysis 2010, 22, 35-40.
280. E.
Katz
Biofuel cells with
switchable power output.
Electroanalysis 2010, 22, 744-756.
281. E.
Katz, P.
Atanassov
Biofuel cells – Editorial
Electroanalysis 2010, 22, 723-724.
282. E. Katz,
V. Privman
Enzyme-based logic systems
for information processing.
Chem. Soc.
Rev. 2010, 39, 1835-1857.
283. E.
Katz, V.
Privman, J. Wang
Towards biosensing
strategies based on biochemical logic systems.
The Fourth
International Conference on
Quantum, Nano and Micro
Technologies (ICQNM 2010).
February 10-16, 2010 - St. Maarten,
Netherlands Antilles. Proceedings. pp. 1-9.
284. D. Volkov, G. Strack, J.
Halámek, E.
Katz, I. Sokolov
Atomic force microscopy
study of immunosensor surface to increase sensitivity and scale down
size of ELISA-type sensor.
Nanotechnology
2010, 21. article # 145503.
285. M.A. Arugula, V. Bocharova,
M. Pita, J. Halámek, E.
Katz
Enzyme-based multiplexer and
demultiplexer.
J. Phys. Chem. B 2010, 114, 5222-5226.
286. V. Bocharova, T.K. Tam, J.
Halámek, M. Pita, E.
Katz
Reversible gating controlled
by enzymes at nanostructured interface.
Chem. Commun. 2010, 46, 2088-2090.
287. J. Halámek, T.K. Tam,
G. Strack, V. Bocharova, M. Pita, E.
Katz
Self-powered biomolecular
keypad lock security system based on a biofuel cell.
Chem.
Commun. 2010, 46, 2405-2407
(paper was highlighted at RSC
web
site)
288. G. Strack, V.
Bocharova, M.A. Arugula, M. Pita, J. Halámek, E.
Katz
Artificial muscle reversibly
controlled by enzyme reactions.
J. Phys.
Chem. Lett. 2010, 1, 839-843.
289. J. Halámek, T.K. Tam,
S. Chinnapareddy, V. Bocharova, E.
Katz
Keypad lock security system
based on immune-affinity recognition integrated with a switchable
biofuel cell.
J. Phys. Chem. Lett. 2010, 1, 973-977.
290. J. Wang, E.
Katz
Digital biosensors with
built-in logic for biomedical applications – Biosensors based on
biocomputing concept.
Anal.
Bioanal. Chem. 2010, 398, 1591-1603.
291. J.R. Windmiller, G. Strack,
M.-C. Chuan, J. Halámek, P.
Santhosh, V. Bocharova, J.
Zhou, E.
Katz,
J.
Wang
Boolean-format biocatalytic
processing of enzyme biomarkers for the diagnosis of soft tissue injury.
Sens.
Actuat. B 2010, 150, 285-290.
292. J. Halámek, J.R.
Windmiller, J. Zhou, M.-C. Chuang, P.
Santhosh, G. Strack,
M.A. Arugula, S.
Chinnapareddy, V. Bocharova, J.
Wang,
E. Katz
Multiplexing of injury codes
for the parallel operation of enzyme logic gates.
Analyst 2010, 135, 2249-2259.
(paper was highlighted at RSC
web site)
293. J.R. Windmiller, S.
Chinnapareddy, P. Santhosh, J. Halámek,
M.-C. Chuang, V. Bocharova, T.-F. Tseng, T. Chou, E.
Katz, J.
Wang
Strip-based amperometric
detection of myeloperoxidase.
Biosens.
Bioelectron. 2010, 26, 886-889.
294. D. Melnikov, G. Strack, J.
Zhou, J.R. Windmiller, J. Halámek,
V. Bocharova, M.-C. Chuang, P. Santhosh, V. Privman,
J. Wang, E.
Katz
Enzymatic AND logic gates
operated under conditions characteristic of biomedical applications.
J. Phys. Chem. B 2010, 114, 12166-12174.
295. V. Privman, J. Zhou,
J. Halámek,
E. Katz
Realization and properties
of biochemical-computing biocatalytic XOR gate based on signal change.
J. Phys. Chem. B 2010, 114, 13601-13608.
296. J. Halámek, V.
Bocharova, S. Chinnapareddy, J.R. Windmiller, G.
Strack, M.-C. Chuang,
J. Zhou, P. Santhosh, G.V.
Ramirez, M.A. Arugula,
J. Wang, E.
Katz
Multi-enzyme logic network
architectures for assessing injuries: Digital processing of biomarkers.
Molecular Biosystems 2010, 6, 2554-2560.
297. V. Privman, J.
Halámek, M.A. Arugula, D. Melnikov, V. Bocharova, E.
Katz
Biochemical filter with
sigmoidal response: Increasing the complexity of biomolecular logic.
J. Phys. Chem. B 2010, 114, 14103-14109.
298.
V. Pedrosa, D. Melnikov, M.
Pita, J. Halámek, V. Privman, A. Simonian, E.
Katz
Enzymatic logic gates with
noise-reducing sigmoid response.
International
Journal of Unconventional
Computing 2010, 6,
451-460.
2011
299. J. Zhou, J. Halámek, V.
Bocharova, J. Wang, E.
Katz
Bio-logic analysis of injury
biomarker patterns in human serum samples.
Talanta 2011, 83, 955-959.
300. K.-W. Kim, V. Bocharova, J.
Halámek, M.-K. Oh, E.
Katz
Steganography and encrypting
based on immunochemical systems.
Biotechnology and
Bioengineering 2011, 105,
1100-1107.
301. Z. Li, M.A. Rosenbaum, A.
Venkataraman, T.K. Tam, E.
Katz, L.T.
Angenent
Bacteria-based AND logic gate: A
decision-making and self-powered biosensor.
Chem. Commun. 2011, 47,
3060-3062.
302. S. Minko, E.
Katz, M.
Motornov, I. Tokarev, M. Pita
Materials with built-in
logic.
J.
Comput. Theor. Nanoscience
2011, 8,
356-364.
303. M. Pita, E.
Katz
Biocatalytic paradigms for
unconventional information processing.
J.
Comput. Theor. Nanoscience
2011, 8,
401-408.
304. E.
Katz
Molecular information
processing: From chemical to biochemical systems -
From molecular
computers and automata to digital biosensors and actuators. - Editorial
Israel Journal of Chemistry 2011, 51,
13-14.
305.
E.
Katz
Bioelectronic devices
controlled by biocomputing systems.
Israel
Journal of Chemistry 2011, 51,
132-140.
306. J. Wang, E.
Katz
Digital biosensors with
built-in logic for biomedical applications.
Israel Journal of
Chemistry 2011, 51,
141-150.
307. J.R. Windmiller, P.
Santhosh, E.
Katz, J. Wang
Bioelectronic system for the
control and readout of enzyme logic gates.
Sens.
Actuat. B 2011, 155,
206-213.
308. M. Pita, V. Privman, M.A.
Arugula, D. Melnikov, V. Bocharova, E.
Katz
Towards biochemical filter
with sigmoidal response to pH changes: Buffered biocatalytic signal
transduction.
PhysChemChemPhys
2011, 13,
4507-4513.
309. E.
Katz
Processing electrochemical
signals at both sides of interface: Electronic vs. chemical signal
processing.
Journal of
Solid State Electrochemistry
2011, 15,
1471-1480.
310. M.-C. Chuang, J.R.
Windmiller, P. Santosh, G. Valdés-Ramirez, E.
Katz, J.
Wang
High-fidelity simultaneous
determination of explosives and nerve agent threats via Booleam
biocatalytic cascade.
Chem. Commun. 2011, 47, 3087-3089.
311.
A. Poghossian, K. Malzahn, M.H. Abouzar, P.
Mehndiratta, E. Katz, M.J.
Schöning
Integration of biomolecular logic gates with
field-effect transducers.
Electrochim. Acta
2011, 56, 9661-9665.
312.
V. Bocharova, J. Halámek, J. Zhou, G. Strack, J. Wang, E. Katz
Alert-type biological dosimeter
based on enzyme logic system.
Talanta
2011, 85, 800-803.
313.
M. Privman, T.K. Tam, V.
Bocharova, J.
Halámek, J. Wang, E. Katz
Responsive interface switchable
by logically processed physiological signals – Towards “smart”
actuators for signal amplification and drug delivery.
ACS
Appl. Mater. Interfaces 2011,
3, 1620-1623.
314.
G. Strack, H.R. Luckarift, R. Nichols, K. Cozart, E. Katz, G.R.
Johnson
Bioelectrocatalytic
generation of directly readable code: harnessing cathodic current for
long-term information relay.
Chem. Commun. 2011, 47, 7662-7664.
315.
J. Halámek, V. Bocharova, M.A. Arugula, G. Strack, V. Privman, E. Katz
Realization and
properties of biochemical-computing biocatalytic XOR gate based on
enzyme inhibition by a substrate.
J. Phys. Chem. B 2011, 115, 9838-9845.
316.
N. Zhou, J.R. Windmiller, G. Valdés Ramírez, M. Zhou, J.
Halámek, E.
Katz, J. Wang
Enzyme-based NAND gate for
rapid electrochemical screening of traumatic brain injury in serum.
Anal. Chim. Acta 2011, 703, 94-100.
317.
J.R. Windmiller, G. Valdés-Ramírez, N. Zhou, M. Zhou,
P.R. Miller, C. Jin, S.M. Brozik, R. Polsky, E. Katz, R.
Narayan, J. Wang
Bicomponent
microneedle array biosensor for minimally-invasive glutamate monitoring
Electroanalysis 2011, 23, 2302-2309.
318.
J. Halámek, J. Zhou, L. Halámková, V. Bocharova,
V. Privman, J. Wang, E. Katz
Biomolecular filters for improved separation
of output signals in enzyme logic systems applied to biomedical
analysis.
Anal. Chem.
2011, 83, 8383-8386.
319.
E. Katz,
M. Pita
Biomedical applications of
magnetic particles.
In: Fine Particles in Medicine and Pharmacy,
E. Matijević (Ed.), Springer, 2011,
Chapter 5, pp. 147-173.
updated on December 1, 2011