320.
V. Bocharova, E.
Katz
Switchable electrode interfaces controlled by
physical, chemical and biological signals.
The
Chemical Record 2012,
12, 114-130.
321.
M. Zhou, N. Zhou, F. Kuralay, J.R. Windmiller, S. Parkhomovsky, G.
Valdés-Ramírez, E. Katz, J.
Wang
A self-powered “Sense-Act-Treat”
system that is based on a biofuel cell and controlled by Boolean logic.
Angew.
Chem. Int. Ed. 2012, 51, 2686-2689.
322.
Z. Jin, G. Güven, V. Bocharova, J. Halámek, I. Tokarev, S.
Minko, A. Melman, D. Mandler, E. Katz
Electrochemically controlled
drug-mimicking protein release from iron-alginate thin-films associated
with an electrode.
ACS
Appl. Mater. Interfaces 2012,
4, 466-475.
323.
E. Katz,
A. Güven
Multi-signal processing
biosensors and bioactuators based on biocomputing concept.
In: Nanoantenna - Plasmon Enhanced
Spectroscopies for Biotechnological Applications.
Pan Stanford
Series on the Hightech of Biotechnology – Nanobiotechnology, vol. A2,
Marc Lamy de la Chapelle and
Annemarie Pucci (Eds.), Pan Stanford Publishing, 2012.
324.
E. Katz
Electrode Interfaces
Switchable by Physical and Chemical Signals Operating as a Platform for
Information Processing
In: Molecular and
Supramolecular Information Processing: From Molecular
Switches to Logic Systems, E. Katz (Ed.), Wiley-VCH, 2012, Chapter 14, pp. 333-354.
325.
E. Katz,
V. Bocharova
Molecular information processing:
From single molecules to
supramolecular systems and interfaces – From algorithms to devices –
Editorial introduction. Chapter
1, pp. 1-9.
E. Katz
Conclusions and perspectives.
Chapter 15, pp. 355-357.
In: Molecular and Supramolecular
Information Processing: From Molecular
Switches to Logic Systems,
E. Katz (Ed.), Wiley-VCH, 2012.
326.
G. Strack, H.R. Luckarift, G.R. Johnson, E. Katz
Information security
applications based on biomolecular systems.
In: Biomolecular
Information Processing - From Logic Systems to Smart
Sensors and Actuators, E. Katz (Ed.), Wiley-VCH, 2012, Chapter 6, pp. 103-116.
327.
E. Katz,
J. Wang
Enzyme-logic digital biosensors
for biomedical applications.
In: Biomolecular Information
Processing - From Logic Systems to Smart
Sensors and Actuators, E. Katz (Ed.), Wiley-VCH, 2012, Chapter 5, pp. 81-101.
328.
E. Katz
Bioelectronic devices controlled
by enzyme-based information processing systems.
In: Biomolecular Information
Processing - From Logic Systems to Smart
Sensors and Actuators, E. Katz (Ed.), Wiley-VCH, 2012, Chapter 4, pp. 61-80.
329.
E. Katz
Biomolecular computing: From
unconventional computing to “smart” biosensors and actuators –
Editorial introduction. Chapter 1, pp. 1-8.
E. Katz
Conclusions and perspectives.
Chapter 18, pp. 347-350.
In: Biomolecular Information
Processing - From Logic Systems to Smart Sensors and Actuators,
E. Katz
(Ed.), Wiley-VCH, 2012.
330.
M. Pita, J. Halámek, S. Chinnapareddy, D.J. White, V. Gartstein,
E. Katz
Permeability of human tooth
surfaces studied in vitro by electrochemical impedance spectroscopy.
Electroanalysis 2012, 24, 1033-1038.
331.
E. Katz,
V. Bocharova, M. Privman
Electronic interfaces
switchable by logically processed multiple biochemical and
physiological signals. – Highlight article
J. Mater. Chem. 2012, 22, 8171-8178.
332.
L. Halámková, J. Halámek, V. Bocharova, A.
Szczupak, L. Alfonta, E. Katz
Implanted biofuel cell operating
in living snail.
J.
Am. Chem. Soc. 2012, 134, 5040-5043.
333.
L. Halámková, J. Halámek, V. Bocharova, S. Wolf,
K.E. Mulier, G. Beilman, J. Wang, E. Katz
Analysis of biomarkers
characteristic of porcine liver injury – From biomolecular logic gates
to animal model.
Analyst
2012, 137, 1768-1770.
334.
J. Halámek, O. Zavalov, L. Halámková, S. Korkmaz,
V. Privman, E.
Katz
Enzyme-based logic analysis of
biomarkers at physiological concentrations: AND gate with
double-sigmoid "filter" response.
J. Phys. Chem. B 2012,
116, 4457-4464.
335.
V. Bocharova, K. MacVittie, S. Chinnapareddy, J. Halámek, V.
Privman, E.
Katz
Realization of associative memory
in an enzymatic process: Toward
biomolecular networks with learning and unlearning functionalities.
J.
Phys. Chem. Lett. 2012,
3, 1234-1237.
336.
E. Katz,
J. Wang, M. Privman, J. Halámek
Multi-analyte digital enzyme
biosensors with built-in Boolean logic (Feature Article)
Anal.
Chem. 2012, 84, 4457-4474.
337.
A. Szczupak, J. Halámek, L. Halámková, V.
Bocharova, L. Alfonta, E. Katz
Living battery – Biofuel cells
operating in vivo in clams.
Energy
& Environmental Science 2012,
5, 8891-8895.
338.
Z. Jin, A.M. Harvey, S. Mailloux, J. Halámek, V. Bocharova, M.R.
Twiss, E. Katz
Electrochemically
stimulated release of lysozyme from alginate matrix cross-linked with
iron cations.
J. Mater. Chem. 2012, 22, 19523-19528.
339.
K.-W. Kim, Y.E. Kim, V. Bocharova, J. Halámek, C.-W. Lee, E. Katz,
M.-K. Oh
Logic circuit upon
angiogenic response controlled by enzyme-linked iron oxide
microparticles – Towards biocomputing in human cells.
Chem. Commun. 2012, 48, 6918-6920.
340.
O. Zavalov, V. Bocharova, V. Privman, E. Katz
Enzyme-based logic: OR gate with
double-sigmoid filter response.
J. Phys. Chem. B 2012, 116, 9683-9689.
341.
V. Bocharova, O. Zavalov, K. MacVittie, M.A. Arugula, N.V. Guz, M.E.
Dokukin, J. Halámek, I. Sokolov, V. Privman, E. Katz
Biochemical logic approach to
biomarker-activated drug release.
J.
Mater. Chem. 2012,
22, 19709-19717.
342.
L. Halámková, S. Mailloux, J. Halámek, A.J.L.
Cooper, E. Katz
Enzymatic analysis of
α-ketoglutaramate – A biomarker for hyperammonemia.
Talanta
2012, 100, 7-11.
343.
M.A. Arugula, N. Shroff, E. Katz, Z.
He
Molecular AND logic gate based on
bacterial anaerobic respiration.
Chem. Commun. 2012, 48, 10174-10176.
344.
K. MacVittie, J. Halámek, E. Katz
Enzyme-based D-flip-flop memory
system.
Chem.
Commun. 2012, 48, 11742-11744.
345.
M. Pita, M. Privman, E. Katz
Biocatalytic enzyme networks
designed for binary-logic control of smart electroactive
nanobiointerfaces.
Topics
in Catalysis 2012, 55, 1201-1216.
346.
K. MacVittie, J. Halámek,
E. Katz
Enzyme-based T-flip-flop
memory system.
International Journal of Unconventional
Computing 2012, 8, 383-389.
347.
O. Zavalov, V. Bocharova, J. Halámek, L.
Halámková, S. Korkmaz, M.A. Arugula, S. Chinnapareddy, E. Katz, V.
Privman
Two-input enzymatic logic
gates made sigmoid by modifications of the biocatalytic reaction
cascades.
International Journal of Unconventional
Computing 2012, 8, 347-365.
348.
E. Katz
Biomolecular information
processing: From Boolean logic gates to complex networked systems.
International
Journal of Unconventional Computing 2012, 8, 339-346.
349.
G. Strack, E.
Katz
Information security
systems based on biomolecular information processing.
International Journal of Unconventional
Computing 2012, 8, 419-432.
2013
350.
K. MacVittie, J. Halámek, L. Halámková, M.
Southcott, W.D. Jemison, R. Lobel, E. Katz
From “cyborg” lobsters to a
pacemaker powered by implantable biofuel cells.
Energy
& Environmental Science 2013,
6, 81-86.
351.
E. Katz,
S. Minko, J. Halámek, K. MacVittie, K. Yancey
Electrode interfaces switchable
by physical and chemical signals for biosensing, biofuel and
biocomputing applications. (Invited review)
Analytical
and Bioanalytical Chemistry 2013,
405, 3659-3672.
352.
M. Southcott, K. MacVittie, J. Halámek, L.
Halámková, W.D. Jemison, R. Lobel, E. Katz
Pacemaker powered by implantable
biofuel cell operating under conditions mimicking human blood
circulation system – Battery not included.
Phys.
Chem. Chem. Phys. 2013, 15, 6278-6283.
353.
S. Mailloux, J. Halámek, L. Halámková, A. Tokarev,
S. Minko, E.
Katz
Biomolecular release
triggered by glucose input – Bioelectronic coupling of sensing and
actuating systems.
Chem. Commun. 2013, 49, 4755-4757.
354.
J.A. Castorena-Gonzalez, C. Foote, K. MacVittie, J. Halámek, L.
Halámková, L.A. Martinez-Lemus, E. Katz
Biofuel cell operating
in
vivo in rat.
Electroanalysis 2013, 25, 1579-1584.
355.
V. Privman, B.E. Fratto, O. Zavalov, J. Halámek, E. Katz
Enzymatic AND logic gate
with sigmoid response induced by photochemically controlled oxidation
of the output.
J. Phys. Chem. B 2013, 117, 7559-7568.
356.
K. MacVittie, J. Halámek, V. Privman, E. Katz
A bioinspired associative
memory system based on enzymatic cascades.
Chem.
Commun. 2013, 49, 6962-6964.
357.
F. Kramer, L. Halámková, A. Poghossian, M.J.
Schöning, E.
Katz, J. Halámek
Biocatalytic analysis of
biomarkers for forensic identification of ethnicity between caucasian
and african american.
Analyst 2013, 138, 6251-6257.
358.
S. Bakshi, O. Zavalov, J. Halámek, V. Privman, E. Katz
Modularity of biochemical
filtering for inducing sigmoid response in both inputs in an enzymatic
AND gate.
J. Phys. Chem. B 2013, 117, 9857-9865.
359.
E. Katz,
K. MacVittie
Implanted biofuel
cells operating in vivo – Methods, applications and perspectives –
Feature Article.
Energy & Environmental Science 2013, 6, 2791-2803.
360.
V. Privman, O. Zavalov, L. Halámková, F. Moseley, J.
Halámek, E.
Katz
Networked enzymatic logic
gates with filtering: New theoretical modeling expressions and their
experimental application.
J. Phys. Chem. B 2013, 117, 14928-14939.
361.
K. MacVittie, E.
Katz
Electrochemical system with
memimpedance properties.
J. Phys. Chem. C 2013, 117, 24943-24947.
362.
E. Gdor, E.
Katz, D. Mandler
Biomolecular AND logic gate
based on immobilized enzymes with precise spatial separation controlled
by electrochemical scanning microscopy.
J.
Phys. Chem. C 2013, 117, 16058-16065.
363.
S. Mailloux, O. Zavalov, N. Guz, E. Katz, V.
Bocharova
Enzymatic filter for
improved separation of output signals in enzyme logic systems towards
‘Sense and Treat’ medicine.
Biomaterials Science 2014, 2, 184-191.
364.
S. Bakshi, L. Halámková, J. Halámek, E. Katz
Biocatalytic analysis of
biomarkers for forensic identification of gender.
Analyst 2014, 139, 559-563.
365.
S. Mailloux, J. Halámek, E. Katz
A model system for targeted
drug release triggered by biomolecular signals logically processed
through enzyme logic networks.
Analyst 2014, 139,
982-986.
366.
K. MacVittie, E.
Katz
Biochemical flip-flop memory
systems – essential additions to autonomous biocomputing and biosensing
systems.
International
Journal of General Systems 2014,
43,
722-739.
367.
E. Katz
Implanted biofuel
cells operating in vivo.
In:
Implantable Bioelectronics - Devices,
Materials and Applications
E. Katz (Ed.),
Wiley-VCH, Weinheim, Germany, 2014,
Chap. 17, pp. 363-379.
368.
E. Katz
Implantable bioelectronics –
Editorial introduction; Chap. 1, pp. 1-5.
Conclusions and
perspectives; Chap. 20, pp. 435-436.
In: Implantable Bioelectronics
- Devices, Materials and Applications
E. Katz (Ed.), Wiley-VCH,
Weinheim, Germany, 2014.
369.
E. Katz,
V. Bocharova, J. Halámek
Switchable electrodes and biofuel
cells.
In: Enzymatic fuel cells: From fundamentals to
applications.
P. Atanassov, G. Johnson, H.
Luckarift (Eds.), Wiley-VCH, Weinheim, Germany, 2014, Chapter 18, pp. 374-421.
370.
F. Moseley, J. Halámek, F. Kramer, A. Poghossian, M.J.
Schöning, E.
Katz
An enzyme-based
reversible CNOT logic gate realized in a flow system.
Analyst 2014, 139, 1839-1842.
371.
S. Mailloux, K. MacVittie, M. Privman, N. Guz, E. Katz
Starch-powered biofuel cell
activated by logically processed biomolecular signals.
ChemElectroChem
2014, 1, 1822-1827.
372.
K. MacVittie, E.
Katz
Self-powered electrochemical
memristor based on a biofuel cell – Towards memristors integrated with
biocomputing systems.
Chem. Commun. 2014, 50, 4816-4819.
373.
N. Guz, J. Halámek, J.F. Rusling, E. Katz
A biocatalytic cascade with
several output signals – Towards biosensors with different levels of
confidence.
Analytical and Bioanalytical Chemistry 2014, 406, 3365-3370.
374.
E. Katz
Biomolecular logic systems:
Applications to biosensors and bioactuators.
SPIE
DSS 2014 Proceedings, Baltimore, 2014, May 5-9, article # 9107-35.
375.
E. Katz,
J. Halámek
New approach in forensic analysis
– Biomolecular computing based analysis of significant forensic
biomarkers.
Annals
of Forensic Research and Analysis 2014, 1, article # 1002.
376. S. Mailloux, N. Guz, M. Gamella
Carballo, J.M. Pingarrón, E. Katz
Model system for
targeted drug release triggered by immune-specific signals.
Analytical and Bioanalytical Chemistry
2014, 406, 4825-4829.
377. S. Mailloux, N. Guz, A. Zakharchenko,
S. Minko, E.
Katz
Majority and minority
gates realized in enzyme-biocatalyzed systems integrated with logic
networks and interfaced with bioelectronic systems.
J. Phys. Chem. B 2014, 118,
6775-6784.
378.
T.A.
Wey, M. Southcott, W.D. Jemison, K.
MacVittie,
E. Katz
Electrical circuit
model and
dynamic analysis of implantable enzymatic biofuel cells operating
in vivo.
Proceedings
of the IEEE 2014,
102, 1795-1810.
379. M. Gamella, N. Guz,
S. Mailloux, J.M.
Pingarrón,
E. Katz
Activation of a
biocatalytic electrode by removing
glucose oxidase from the surface – Application to signal triggered drug
release.
ACS Appl. Mater. Interfaces 2014, 6,
13349-13354.
380. S. Mailloux,
E. Katz
The role of biomolecular logic
systems in biosensors and bioactuators.
Optical
Engineering 2014,
53, article # 097107.
381. B.E. Fratto, L.J. Roby, N.
Guz,
E.
Katz
Enzyme-based logic gates
switchable between OR, NXOR and NAND Boolean operations realized in a
flow system.
Chem.
Commun. 2014,
50, 12043-12046.
382. Y. Holade, K. MacVittie, T.
Conlon, N. Guz, K. Servat, T.W. Napporn, K.B. Kokoh,
E. Katz
Pacemaker activated by an abiotic
biofuel cell operated in human serum solution.
Electroanalysis
2014,
26, 2445-2457.
383. V. Privman, S.
Domanskyi, S. Mailloux, Y. Holade,
E. Katz
Kinetic model for a
threshold filter in an enzymatic system for bioanalytical and
biocomputing applications.
J. Phys. Chem. B 2014,
118, 12435-12443.
384. S. Mailloux,
E. Katz
Biocomputing, biosensing and
bioactuation based on enzyme biocatalyzed reactions.
Biocatalysis
2014,
1, 12-32.
385. M. Gamella, N. Guz, S.
Mailloux, J.M. Pingarrón,
E. Katz
Antibacterial drug release
electrochemically stimulated by the presence of bacterial cells –
Theranostic approach.
Electroanalysis
2014,
26, 2552-2557.
386.
E. Katz, V.
Privman, O. Zavalov
Structure of feed-forward
realizations with enzymatic processes.
Proceedings of The Eighth
International Conference on Quantum, Nano/Bio, and Micro Technologies
(ICQNM 2014),
ThinkMind Online Publishing,
Wilmington, DE, 2014, pp. 22-27.
387. V. Privman,
E. Katz
Can bio-inspired information
processing steps be realized as synthetic biochemical processes?
Physica Status Solidi A 2015,
212, 219-228.
388.
E. Katz
Implantable biofuel cells
operating in vivo – Potential power sources for bioelectronic devices.
Bioelectronic
Medicine 2015,
2, 1-12.
389. K MacVittie, T. Conlon,
E. Katz
A wireless transmission system
powered by an enzyme biofuel cell implanted in an orange.
Bioelectrochemistry
2015,
106, 28-33.
390. Y. Holade, K. MacVittie, T.
Conlon, N. Guz, K. Servat, T.W. Napporn, K.B. Kokoh,
E. Katz
Wireless information transmission
system powered by an abiotic biofuel cell implanted in an orange.
Electroanalysis
2015,
27, 276-280.
391.
E. Katz,
S. Minko
Enzyme-based logic systems
interfaced with signal-responsive materials and electrodes. (Feature
article)
Chem.
Commun. 2015, 51, 3493-3500.
(special issue on "Molecular Logic
Gates and Information Processing")
392.
B.E. Fratto, N. Guz, E. Katz
Biomolecular computing realized
in parallel flow systems: Enzyme-based Double Feynman logic gate for
reversible information processing.
Parallel
Processing Letters 2015,
25, No. 01, 1540001.
393.
E. Katz
Switchable electrodes and biofuel
cells logically controlled by chemical and biochemical signals.
In: Handbook of Bioelectronics, K.
Iniewski, S. Carrara (Eds.), Cambridge University Press, 2015, Chapter 17, pp. 215-238.
394.
J. Halámek, E.
Katz
Electrochemical systems
controlled by enzyme-based logic networks: Towards biochemicaly
controlled bioelectronics.
In: Electrochemical
Processes in Biological
Systems, The Wiley Series on Electrocatalysis and
Electrochemistry.
L. Gorton, A. Lewenstam (Eds.),
Willey, 2015, Chapter 10, pp.
231-252; ISBN-10:
0470578459 | ISBN-13: 978-0470578452.
395.
B.E. Fratto, E.
Katz
Reversible logic gates
based on enzyme-biocatalyzed reactions and realized in flow cells –
Modular approach.
ChemPhysChem 2015, 16, 1405-1415.
396.
Yidan Hu, Yun Yang, E. Katz, Hao
Song
Programming quorum
sensing-based AND gate in Shewanella oneidensis for logic
gated-microbial fuel cells.
Chem. Commun. 2015, 51, 4184-4187.
397. E. Katz
Biocatalytic electrodes and
biofuel cells controlled by biomolecular
signals and implantable biofuel cells operating in vivo – Towards
bioelectronic devices integrating
biological and electronic
systems.
Electrochemistry, Specialist Periodical
Reports, Royal Society of Chemistry, Craig Banks, Roger
Mortimer, Steven McIntosh (Eds.), vol. 13, 2015, 170-209.
(DOI: 10.1039/9781782620273 –
book; DOI: 10.1039/9781782620273-00170 – chapter)
398.
E. Katz,
J.M. Pingarrón, S. Mailloux, N. Guz, M. Gamella Carballo, G.
Melman, A. Melman
Substance release triggered
by biomolecular signals in bioelectronic systems. (Invited Perspective
article)
J. Phys. Chem. Lett. 2015, 6, 1340-1347.
399.
E. Katz
Biocomputing – Tools, aims,
perspectives.
Current
Opinion in Biotechnology 2015,
34, 202-208..
400.
E. Agliari, M. Altavilla, A. Barra, L. Dello Schiavo, E. Katz
Notes on stochastic (bio)-logic
gates: computing with allosteric cooperativity.
Scientific Reports (Nature Publishing Group) 2015, 5, art. 9415.
401.
A. Poghossian, E.
Katz, M.J. Schöning
Enzyme logic AND-Reset and
OR-Reset gates based on a field-effect electronic transducer modified
with multi-enzyme membrane.
Chem.
Commun. 2015, 51, 6564-6567.
402.
S. Mailloux, Y.V. Gerasimova, N. Guz, D.M. Kolpashchikov, E. Katz
Bridging the two worlds: A
universal interface between enzymatic and DNA computing systems.
Angew.
Chem. Int. Ed. 2015, 54, 6562-6566.
403.
M. Gamella Carballo, N. Guz, J.M. Pingarrón, R. Aslebagh, C.C.
Darie, E. Katz
Bioelectronic system for insulin
release triggered by ketone body mimicking diabetic ketoacidosis in
vitro.
Chem. Commun. 2015, 51, 7618-7621.
404.
E Katz,
V.M. Fernández, M. Pita
Switchable
bioelectrocatalysis controlled by pH changes.
Electroanalysis 2015, 27, 2063-2073. Special issue on “Advanced Materials for
Electroanalysis”
405.
J. Renata Sempionatto, M. Gamella, N. Guz, J.M. Pingarrón, S.
Minko, E. Katz
Electrochemically
stimulated DNA release from a polymer-brush modified electrode.
Electroanalysis 2015, 27, 2171-2179. Special issue on
“Advanced Materials for Electroanalysis”
406.
E. Katz
Implantable biofuel cells
operating in vivo – Providing sustainable
power for bioelectronic devices: From biofuel cells to cyborgs.
The International Workshop
on Advances in Sensors and Interfaces (IWASI-2015); Gallipoli, Italy,
18-19 June 2015,
Proceedings, 2015, pp. 2-13;
DOI:10.1109/IWASI.2015.7184958.
407.
E. Katz,
J.
Halámek, S. Bakshi
Forensic science –
Multidisciplinary approach.
Journal Forensic, Legal &
Investigative Sciences, 2015, 1,
art # 004.
408.
E. Katz
Magneto-switchable electrodes and
electrochemical systems.
Electroanalysis,
2016, 28, 904-919.
409.
E. Katz,
J. Halámek, L. Halámková, S. Bakshi, J. Agudelo,
C. Huynh
Biochemical analysis of
biomarkers for forensic applications.
In: Forensic Science: A Multidisciplinary
Approach, E. Katz (Ed.), Wiley-VCH, Weinheim, Germany, 2016, Chapter 8, pp. 151-176.
410.
E. Katz,
J.
Halámek
Forensic Science –
Chemistry, Physics, Biology and Engineering – Introduction, Chapter 1,
pp. 1-4.
Forensic Science –
Conclusions and Perspectives, Chapter 19, pp. 4115-416.
In: Forensic Science: A Multidisciplinary
Approach, E. Katz (Ed.), Wiley-VCH, Weinheim, Germany, 2016.
411.
E. Katz,
B.E. Fratto
Enzyme-based reversible logic
gates operated in flow cells.
In: Advances in Unconventional
Computing, A. Adamatzky (Ed.), Springer, 2016, Volume 2, Chapter 2, pp. 29-59.
412.
B.E. Fratto, E.
Katz
Controlled logic gates –
Switch gate and Fredkin gate based on enzyme-biocatalyzed reactions
realized in flow cells.
ChemPhysChem 2016, 17, 1046-1053.
413.
V. Privman, S. Domanskyi, R.A.S. Luz, N. Guz, L. Glasser, E. Katz
Diffusion of oligonucleotides
from within iron-crosslinked polyelectrolyte-modified alginate beads: A
model system for drug release.
ChemPhysChem
2016, 17, 976-984.
414.
M. Masi, M. Gamella, N. Guz, E. Katz
Electrochemically triggered
DNA release from a mixed-brush polymer-modified electrode
Electroanalysis 2016, 28, 2613-2625.
415.
N. Guz, T.A. Fedotova, B.E. Fratto, O. Schlesinger, L. Alfonta, D.
Kolpashchikov, E.
Katz
Bioelectronic interface
connecting reversible logic gates based on enzyme and DNA reactions.
ChemPhysChem 2016, 17, 2247-2255.
416. M. Gamella, N. Guz, E. Katz
DNA release from a
bioelectronic interface stimulated by a DNA signal – Amplification of
DNA signals.
Electroanalysis 2016, 28, 2692-2696.
417. B.E. Fratto, J.M. Lewer, E. Katz
Enzyme-based half-adder and
half-subtractor with a modular design.
ChemPhysChem 2016, 17, 2210-2217.
418. A. Koushanpour, N. Guz, M. Gamella, E. Katz
Biofuel cell based on
carbon fiber electrodes functionalized with graphene nanosheets.
ECS Journal of Solid State Science and
Technology 2016, 5, M3037-M3040.
419. A. Koushanpour, N. Guz, M. Gamella, E. Katz
Graphene-functionalized
3D-carbon fiber electrodes – Preparation and electrochemical
characterization.
Electroanalysis 2016, 28, 1943-1946.
420.
E. Katz
Modified electrodes and
electrochemical systems switchable by temperature changes.
Electroanalysis 2016, 28, 1916-1946
421.
A. Verma, B.E. Fratto, V. Privman, E. Katz
Design of flow systems for
improved networking and reduced noise in biomolecular signal processing
in biocomputing and biosensing applications.
Sensors (MDPI) 2016,
article # 1042.
422.
B.E. Fratto, E.
Katz
Utilization of a fluidic
infrastructure for the realization of enzyme-based Boolean logic
operations.
International Journal of Parallel, Emergent and Distributed Systems
2016, 32, 139-156.
423. M. Gamella, A.
Zakharchenko, N. Guz, M. Masi, S. Minko, D.M. Kolpashchikov, H. Ikend,
A. Poghossian, M.J. Schöning,
E. Katz
DNA computing systems activated
by electrochemically-triggered DNA release from a
polymer-brush-modified electrode array.
Electroanalysis
2017, 29,
398-408.
424.
B.E. Fratto, N. Guz, T.T. Fallon, E. Katz
An enzyme-based 1:2 demultiplexer
interfaced with an electrochemical actuator.
ChemPhysChem
2017, 18, 1721-1725.
425.
E. Honarvarfard, M. Gamella, N. Guz, E. Katz
Electrochemically-controlled DNA
release under physiological conditions from a monolayer-modified
electrode.
Electroanalysis
2017, 29, 324-329.
426.
E. Katz,
A. Poghossian, M.J. Schöning
Enzyme-based logic gates and
circuits – Analytical applications and interfacing with electronics.
Anal.
Bioanal. Chem. 2017,
409, 81-94.
427.
A. Koushanpour, M. Gamella, N. Guz, E. Katz
A biofuel cell based on
biocatalytic reactions of glucose on both anode and cathode electrodes.
Electroanalysis
2017, 29, 950-954.
428.
E. Katz
Enzyme-based logic gates
and networks with output signals analyzed by various methods.
ChemPhysChem
2017, 18, 1688-1713.
429. E. Honarvarfard, M. Gamella, D.
Channaveerappa, C.C. Darie, A. Poghossian, M.J. Schöning, E. Katz
Electrochemically
stimulated insulin release from a modified graphene-functionalized
carbon fiber electrode.
Electroanalysis 2017, 29, 1543-1553.
430.
S. Scheja, S. Domanskyi, M.
Gamella, K.L. Wormwood, C.C. Darie, A. Poghossian, M.J. Schöning,
A.
Melman, V. Privman, E. Katz
Glucose-triggered insulin release
from Fe3+-
cross-linked alginate hydrogel:
Experimental study and
theoretical modeling.
ChemPhysChem
2017, 18, 1541-1551.
431.
A. Koushanpour, M. Gamella, E. Katz
A biofuel cell based on
biocatalytic reactions of lactate on both anode and cathode electrodes
– Extracting electrical power from human sweat.
Electroanalysis
2017, 29, 1602-1611.
432.
M. Gamella, M. Privman, S. Bakshi, A. Melman, E. Katz
DNA release from Fe3+-
cross-linked alginate films triggered by
logically processed biomolecular signals - Integration of biomolecular
computing and actuation.
ChemPhysChem
2017, 18, 1811-1821.
433. E. Katz
Enzyme-based logic systems:
Composition, operation, interfacing and applications.
In: Springer Encyclopedia of Complexity and
Systems Science, R.A.
Meyers (Ed.-in-Chief), Volume title: Unconventional
computing, A.
Adamatzky (Ed.), Springer, 2017,
1-41.
On line publication:
https://doi.org/10.1007/978-3-642-27737-5_681-1
434.
D. Molinnus, A. Poghossian, M. Keusgen, E. Katz, M.J.
Schöning
Coupling of biomolecular logic
gates with electronic transducers: From single enzyme logic gates to
Sense/Act/Treat chips.
Electroanalysis
2017, 29, 1840-1849.
435.
S.F. Bakshi, N. Guz, A. Zakharchenko, H. Deng, A. Tumanov, C.D.
Woodworth, S. Minko, D.M. Kolpashchikov, E. Katz
Magnetic field-activated sensing
of mRNA in living cells.
J.
Am. Chem. Soc. 2017, 139, 12117-12120.
436. Y. Filipov, S. Domanskyi, M.L. Wood,
M. Gamella, V. Privman, E. Katz
Experimental realization of high
quality biochemical XOR gate.
ChemPhysChem
2017, 18, 2908-2915.
437. E.U. Akkaya, E. Katz, U.
Pischel
Molecular logic: From single
logic gates to sophisticated logic circuits, from fundamental science
to practical applications.
ChemPhysChem
2017, 18, 1-2.
438.
A. Zacharchenko, N. Guz, A.M. Laradji, E. Katz, S.
Minko
Magnetic field remotely
controlled highly-selective biocatalysis.
Nature
Catalysis 2017, DOI:
10.1038/s41929-017-0003-3.
439.
E. Honarvarfard, M. Gamella, A. Poghossian, M.J. Schöning, E. Katz
An enzyme-based reversible
Controlled NOT (CNOT) logic gate operating on a semiconductor
transducer.
Applied
Materials Today 2017, 9, 266-270.
440.
A. Koushanpour, M. Gamella, Z. Guo,
E. Honarvarfard, A. Poghossian, M.J. Schöning, K.
Alexandrov, E. Katz
Ca2+-switchable glucose dehydrogenase
associated with
electrochemical/electronic interfaces: Applications to
signal-controlled power production and biomolecular release.
J.
Phys. Chem. B 2017, 121, 11465−11471.
441. M. Gamella, A. Koushanpour, E. Katz
Biofuel Cells
– Activation of micro- and macro-electronic devices.
Bioelectrochemistry
2018, 119, 33-42.
442.
Y. Filipov, M. Gamella, E. Katz
Nano-species release system
activated by enzyme-based XOR logic gate.
Electroanalysis
2018, 30, 1281-1286.
443.
S.F. Bakshi, N. Guz, A. Zakharchenko, H. Deng, A.V. Tumanov, C.D.
Woodworth, S. Minko, D.M. Kolpashchikov, E. Katz
Nanoreactors based on
DNAzyme-functionalized magnetic nanoparticles activated by magnetic
field.
Nanoscale
2018, 10, 1356-1365..
444.
E. Katz,
J.
Wang, J. Halámek, L. Halámková
Enzyme logic systems - Biomedical
and forensic biosensor applications.
In: Label-Free Biosensing, M.
Schöning, A. Poghossian (Eds.),
Springer Series on Chemical
Sensors and Biosensors, 2017,
Chapter 4.
445.
A.V. Okhokhonin, S. Domanskyi, Y. Filipov, M. Gamella, A.N. Kozitsina,
V. Privman, E.
Katz
Biomolecular release from
alginate-modified electrode triggered by chemical inputs processed
through a biocatalytic cascade – Integration of biomolecular computing
and actuation.
Electroanalysis
2018, 30, 426-435.
446.
E. Katz
Modified electrodes and
electrochemical systems switchable by light signals.
Electroanalysis
2018, 30, 759-797.
447. E. Katz
Signal-Switchable
Electrochemical Systems - Materials, Methods, and Applications,
Wiley-VCH, 2018.
448.
M. Privman, N. Guz, E.
Katz
Enzyme-logic digital biosensors
for biomedical applications.
Int. J. Unconventional Computing 2018, 13, 435-476.
449.
M. Gamella, I. Lee, N. Guz, D. Blaauw, E.
Katz
Bioelectronic interface
between biomolecular logic systems and microelectronics.
Int. J. Unconventional Computing 2018, 14, 27-41.
450.
Y. Filipov, A. Zakharchenko, S. Minko, E. Katz
Magneto-controlled
biocatalytic cascades with logically processed input signals –
Substrate channeling versus free diffusion.
ChemPhysChem
2018, 19, 3035-3043.
451. M. Gamella, Z. Guo, K. Alexandrov, E. Katz
Bioelectrocatalytic electrodes modified with PQQ-glucose
dehydrogenase–calmodulin chimera switchable by peptide signals:
Pathway to generic bioelectronic
systems controlled by biomolecular inputs.
ChemElectroChem
2019, 6, 638-645.
452. E. Katz
Boolean logic gates realized with
enzyme-catalyzed reactions – Unusual look at usual chemical reactions.
ChemPhysChem
2019, 20, 9-22.
453. E. Katz
Signal-activated biomolecular
release from alginate-modified
electrodes,
In: S. Cosnier (Ed.),
Bioelectrochemistry: Design and
Applications of Biomaterials,
Chapter 8, pp. 143-166, Walter de
Gruyter GmbH, Berlin, Germany, 2019.
454. E. Katz
Enzyme-Based Computing Systems,
Wiley-VCH (book to be published by July 2019).
In press.
455. S. Bakshi, A. Zakharchenko,
S. Minko, D.M. Kolpashchikov, E. Katz
Towards nanomaterials for cancer
theranostics: A system of DNA-modified
magnetic nanoparticles for detection and suppression of RNA marker in
cancer cells
Magnetochemistry
(MDPI), 2019, 5(24),
doi:10.3390/magnetochemistry5020024.
456. P. Bollella, E. Katz
Unconventional computing based on
enzyme-catalyzed reactions – Motivation, goals, perspectives.
Int. J. Unconventional Computing 2019, in press.
457. E. Hall, E. Katz,
Biosensors, in: R. Kellner, J.-M.
Mermet, M.
Otto, M. Valcárcel, H.M. Widmer (Eds.),
Analytical Chemistry: A Modern
Approach to Analytical Science, 2nd ed., Wiley-VCH, 2019, in press.
458. M. Bellare, V. Krishna K.
Kadambar, P. Bollella, E. Katz, A.
Melman
Electrochemical signal-triggered
release of biomolecules functionalized with His-tag units.
Submitted.
459. M. Bellare, V. Krishna
Kadambar, P. Bollella, E. Katz, A.
Melman
Electrochemically stimulated
molecule release associated with interfacial pH changes.
Submitted
460. T.L. Karschuck, Y. Filipov,
P. Bollella, M. Schöning, E. Katz
Not-XOR (NXOR) logic gate based
on an enzyme-catalyzed reaction.
Int. J. Unconventional Computing
2019, in press.
461. Y. Filipov, P. Bollella, E. Katz
Not-XOR (NXOR) logic gate
realized with enzyme-catalyzed reactions – Optical and electrochemical
signal transduction.
In preparation
updated on May 9, 2019