Newark


Roman Brukh
Roman Brukh, PhD

Department of Chemistry Rutgers University, Newark, NJ
e-mail: rbrukh@rutgers.edu phone: 973-353-5254


Publications

1. A multipronged approach unravels unprecedented protein-protein interactions in the human 2-oxoglutarate dehydrogenase multienzyme complex. Jieyu Zhou; Luying Yang; Oliver Ozohanics; Xu Zhang; Junjie Wang; Attila Ambrus; Palaniappa Arjunan; Roman Brukh; Natalia S. Nemeria; William Furey; Frank Jordan. Journal of Biological Chemistry, 2018.

2. A Novel Small-Molecule Inhibitor of the Mycobacterium tuberculosis Demethylmenaquinone Methyltransferase MenG Is Bactericidal to Both Growing and Nutritionally Deprived Persister Cells. Sukheja, P.; Kumar, P.; Mittal, N.; Li, S.; Singleton, E.; Russo, R.; Perryman, A.; Shrestha, R.; Awasthi, D.; Husain, S.; Soteropoulos, P.; Brukh, R.; Connell, N.; Freundlich, J.; Allanda, D. Journal of American Society of Microbiology, 8 (1) 2017.

3. Structure and Function of the Catalytic Domain of the Dihydrolipoyl Acetyltransferase Component in Escherichia coli Pyruvate Dehydrogenase Complex. Wang, J.; Nemeria, N.; Chandrasekhar, K.; Kumaran, S.; Arjunan, P.; Reynolds, S.; Calero, G.; Brukh, R.; Kakalis, L.; Furey, W.; Jordan, F. Journal of Biological Chemistry, v. 289 (22) 2014 15215-15230,

4. Production of Graphene Sheets by Direct Dispersion with Aromatic Healing Agents. M. Zhang; R. R. Parajuli; D. Mastrogiovanni; B. Dai; P. Lo; W. Cheung; R. Brukh; P. L. Chiu; T. Zhou; Z. Liu; E. Garfunkel; H. He. Small, 6 (10) 2010 1100-1107.

5. Stabilizing single-walled carbon nanotubes by removal of residual metal catalysts. Brukh, R.; Sae-Khow, O.; Mitra, S. Chemical Physics Letters, 459 (2008) 149-152.

6. Kinetics of nanotube oxidation. Brukh, R.; Mitra, S. Journal of Materials Chemistry, 2007, 17, 619-623.

7. Mechanism of carbon nanotube growth by CVD. Brukh, R.; Mitra, S. Chemical Physics Letters, 424 (2006) 126-132.

8. The effect of the waste concentration on destruction efficiency during incineration. Brukh, R.; Barat, R.; Mitra, S. Environmental Engineering Science, 23 (2), 2006, 383-392.

9. Development of continuous on-line purge and trap system. Saridara, C.; Brukh, R; Mitra, S. Journal of Separation Science, 29, 2006, 446-452.

10. Self-assembled carbon nanotubes in a microtrap for chemical sensing and chromatography. Saridara, C.; Brukh, R.; Iqbal, Z.; Mitra, S. Analytical Chemistry, 77(4), 2005.

11. Microtrap modulated flame ionization detector for on-line monitoring of methane. Thammakhet, C.; Thavarungkul, P.; Brukh, R.; Mitra, S.; Kanatharana, P. Journal of Chromatography A, vol. 1072 (2), 2005, 243-248.

12. Micromachined heaters for microfluidic devices. Kim, M.; Brukh, R; Kishore, S.; Mitra, S.; Misra, D. Sensors and Materials, 18 (1), 2006, 35-48.

13. Pathways to methylene chloride destruction at low and high concentrations. Brukh, R.; Barat, R.; Mitra, S. Combustion Science and Technology, 176 (4), 2004.

14. Experimental and modeling studies of formation of products of incomplete combustion and chlorocarbon incineration. Brukh, R. Diss. Abstr. Int., 2004, 64(11), 5423.

15. Sample preparation: an analytical perspective. In Sample Preparation Techniques in Analytical Chemistry. Mitra S.; Brukh, R. Wiley and Sons. (2003) 1-36.

16. Process modeling and on-line monitoring of benzene and other species during the two-stage combustion of ethylene in air. Brukh, R.; Salem, T.; Slanvetpan, T.; Barat, R.; Mitra, S. Advances in Environmental Research. 6 (2002) 359-367.

17. Application of microtrap for benzene analysis during ethylene/air combustion. Brukh, R; Barat, R.; Mitra, S. In First Joint Meeting of the U. S. Sections of the Combustion Institute. 1999.

18. Mechano-chemical processes on an impact-contact surface during vibrational treatment in chemically active media. Toropovskaya, I.; Shestopalov, V.; Brukh, R. Mechanokhim. Sint., Vladivostok, Russia, 1990.

19. Polymer-containing working compounds for vibrofinishing. Toropovskaya, I.; Brukh, R.; Shestopalov, V. Mechanization and Automatization of Production, vol. 5, Rostov, Russia, 1990.

20. Utilization of mechanical-electrochemical phenomena to increase the effectiveness of chemically- and surface-active compounds during vibrofinishing. Toropovskaya, I.; Brukh, R.; Shestopalov, V. Research, vol.2, Chernihiv, Ukraine. 1990.

21. Development of technological process of vibroabrasive treatment of titanium alloys. Brukh, R. Reports, Lviv, Ukraine, 1989.

22. Vibrocleaning of titanium surface with chemically active compounds. Brukh, R.; Toropovskaya, I.; Shestopalov, V. Development of vibrofinishing processes, Rostov, Russia, 1989.

23. Study on interaction of working compound components and vibroprocess parameters. Toropovskaya, I.; Brukh, R.; Yaroshevych, N. Improvement of vibrofinishing and equipment, Rostov, Russia, 1988.


Presentations

1. Brukh, R. Optimization of MALDI-TOF instrumental parameters by solution of polynomial functions and calculation their maxima. 66th ASMS Annual Conference, San Diego, CA, USA, June 3-7, 2018.

2. Brukh, R.; Karwa, M.; Saridara, C. Self-assembly of carbon nanotubes to serve as nanosorbents. Abstracts of Papers, 233rd ACS National Meeting, Chicago, IL, USA, March 25-29, 2007.

3. Brukh, R.; Mitra, S. Mechanism of carbon nanotube growth by CVD. 38th Middle Atlantic Regional Meeting, American Chemical Society, Hersheys, PA, June 4-7, 2006.

4. Brukh, R.; Mitra, S. Kinetics of carbon nanotube oxidation. 38th Middle Atlantic Regional Meeting, American Chemical Society, Hersheys, PA, June 4-7, 2006.

5. Saridara, C.; Brukh, R.; Iqbal, Z.; Mitra, S. Self-assembled carbon nanotubes in a microtrap for chemical sensing and chromatography. 230th ACS National Meeting, American Chemical Society, Washington, DC, Aug. 28-Sept.1, 2005.

6. Saridara, C.; Brukh, R.; Iqbal, Z.; Mitra, S. Self-assembly of carbon nanotubes in a microtrap for on-line preconcentration of volatile organics. 229th ACS National Meeting, San Diego, CA, March 13-17, 2005.

7. Saridara, C.; Brukh, R.; Iqbal, Z.; Mitra, S. Micro-trapping with nano particles for on-line gas chromatography. 229th ACS National Meeting, San Diego, CA, March 13-17, 2005.

8. Brukh, R.; Mitra, S.; Saridara, C.; Karwa, M.; and Iqbal, Z. Self-assembly of Nanoparticles in Sensing Platforms. Federal Remediation Technologies Roundtable, EPA, Washington DC, December 9, 2004.

9. Saridara, C.; Brukh, R.; Mitra, S. On-line purge and trap for real-time water monitoring. The 227th ACS National Meeting, Anaheim, CA, March 28-Apr. 1, 2004.

10. Kim, M.; Brukh, R.; Mitra, S. A microfabricated microconcentrator for new generation of micro analytical devices. Symposium on Air Quality Measurement Methods and Technology, Research Triangle Park, NC, April 20-22, 2004.

11. Brukh, R; Barat, R.; Mitra, S. Application of microtrap for rapid benzene analysis during ethylene/air combustion. First Joint Meeting of the U. S. Sections of the Combustion Institute, March 14-17, 1999.

12. Brukh, R. Vibrofinishing of surgical instruments. Conference 'The use of low frequency vibrations for technological applications', Rostov, Russia, October 14-18, 1991.

13. Brukh, R.; Toropovskaya, I. Compounds for vibrofinishing. Conference 'Improving of quality by surface-finishing and strengthening methods', Penza, Russia, April 25-26, 1991.

14. Brukh, R.; Toropovskaya, I. Compounds for intensification of a free-abrasive machining of surface. Conference 'Mechanization of finishing processes', Belgorod, Russia, May 15-18, 1990.

15. Brukh, R.; Toropovskaya, I. Study on mechano-chemical phenomena in increasing the efficiency of active compounds. Conference 'Low-frequency vibrations in technological applications', Poltava, Ukraine, September 17-20, 1990.

16. Brukh, R.; Toropovskaya, I. Mechano-chemical phenomena in vibrofinishing of steel surface. Conference 'Low-frequency vibrations in technological applications', Rostov, Russia, October 3-6, 1989.

17. Brukh, R.; Toropovskaya, I. Vibrofinishing of stainless steel and aluminum alloys. Conference 'Low-frequency vibrations for technological applications', Rostov, Russia, October 3-6, 1989.

18. Brukh, R.; Toropovskaya, I. Vibrocleaning of titanium surfaces with chemically active compounds. Conference 'Technological medias and compounds', Rivne, Ukraine, October 12-14, 1988.

19. Brukh, R.; Toropovskaya, I.; Shestopalov, V. Modeling of vibrofinishing processes. Seminar 'Vibrofinishing Processes', Lviv, Ukraine, October 2-4, 1984.

20. Brukh, R.; Toropovskaya, I.; Shestopalov, V. Study on films formation on a steel surface during vibrofinishing. Student conference, Lviv, Ukraine, April 16-21, 1984.

21. Brukh, R.; Toropovskaya, I.; Shestopalov, V. Electrochemical properties of steel surface after vibrofinishing. Student conference, Lviv, Ukraine, April 16-21, 1984.


Patents

1. Brukh, R.; Toropovskaya, I.; Shestopalov, V. Composition for chemical treatment of titanium. U.S.S.R. (1992), SU 1781319 A1 19921215. Application: SU 90-4777572 19900105.

2. Toropovskaya, I.; Brukh, R.; Shestopalov, V. Compound for vibration-chemical polishing of aluminum alloy surface. U.S.S.R. (1991), SU 1678901 A1 19910923. Application: SU 89-4716833 19890711.

3. Toropovskaya, I.; Brukh, R.; Kokhalyk, Z.; Berlin, A.; Kislenko, V. Compound for vibrofinishing. U.S.S.R. (1989), SU 4726142.


Mechanical Design

1. Unification of a plate holder. Electron Indutry, Lviv, Ukraine. 13743. 1985.

2. New design of the removable cover for an electrocoagulator. 15255. Electron Industry, Lviv, Ukraine. 1986.

3. Modification of flow discharge section in an electrocoagulation unit. 15349. Electron Industry, Lviv, Ukraine. 1986.

4. Modification of the electrode design in an electrocoagulation unit. 15350. Electron. Ukraine. 1986.