This document is a curriculum vitae for Dr. Avanish Pratap Singh that outlines his education and experience. He received a Ph.D. in Physics from Delhi University in 2015, with a thesis on electrical and optical properties of conducting polymers for EMI shielding applications. He has worked as an Assistant Professor and Senior Project Fellow at various universities and research institutions in India. His research interests include carbon-based materials, polymers, and nanostructures for applications such as EMI shielding. He has over 30 publications in refereed journals.
The heating pattern of the microwave dehydrator for treating petroleum crude ...eSAT Journals
Abstract The effect of microwave dehydrator (modified domestic microwave oven) different types of petroleum oils were investigated in this paper, since microwave heats material selectively and volumetrically in relatively short time, and since its application in treating petroleum emulsion is tremendously recommended, thereof, it is the aim of this paper to investigate the microwave induced heating capacities of the individual components of the petroleum emulsion mixture. Three types of crude petroleum oils and water samples were put into test, from the result of this study, the temperature profile was observed to proceed as follow, at the first 20 seconds, all samples had similar temperature profiles in the range (50-60 ⁰C), however, beyond 20 seconds there was a clear distinct trend for every sample, in the interval from 20 seconds to 110 seconds, water sample had the curve with the highest temperature profile followed by UAE crude oil, then Saudi Arabia oil. Beyond 110 seconds, Kuwait crude oil had the maximum temperature profile continued sharply without reaching any plateau, followed by UAE then Saudi Arabia crude oil. The volumetric rate of heat generation also found to be in such a way that water sample had the maximum numerical value in the range (1-1.2 cal/s.cm3) at the beginning then decays as the heating time goes on, followed by that of Kuwait oil (0.8-1 cal/s.cm3), then Saudi Arabia crude oil (0.6-0.8 cal/s.cm3). Furthermore water also found to have the highest dielectric loss ranged between (7-8) and lowest wavelength in the range (1.5-2) followed by all the oil samples which had constant and identical dielectric properties in the range (0-0.5) and wavelength of 8 Cm. from the experimental results of this research, one can conclude that although both water and crude oils can interact effectively with microwave radiation yet the mechanism may not be the same since oils were shown to have very low dielectric loss. Another observation is different crude oils have different heating pattern, there this had to be into consideration when studying crude emulsion or refining. Keywords: microwave dehydrator, heating petroleum oils, dielectric of petroleum, and dielectric of water.
The heating pattern of the microwave dehydrator for treating petroleum crude ...eSAT Publishing House
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology
The heating pattern of the microwave dehydrator for treating petroleum crude ...eSAT Journals
Abstract The effect of microwave dehydrator (modified domestic microwave oven) different types of petroleum oils were investigated in this paper, since microwave heats material selectively and volumetrically in relatively short time, and since its application in treating petroleum emulsion is tremendously recommended, thereof, it is the aim of this paper to investigate the microwave induced heating capacities of the individual components of the petroleum emulsion mixture. Three types of crude petroleum oils and water samples were put into test, from the result of this study, the temperature profile was observed to proceed as follow, at the first 20 seconds, all samples had similar temperature profiles in the range (50-60 ⁰C), however, beyond 20 seconds there was a clear distinct trend for every sample, in the interval from 20 seconds to 110 seconds, water sample had the curve with the highest temperature profile followed by UAE crude oil, then Saudi Arabia oil. Beyond 110 seconds, Kuwait crude oil had the maximum temperature profile continued sharply without reaching any plateau, followed by UAE then Saudi Arabia crude oil. The volumetric rate of heat generation also found to be in such a way that water sample had the maximum numerical value in the range (1-1.2 cal/s.cm3) at the beginning then decays as the heating time goes on, followed by that of Kuwait oil (0.8-1 cal/s.cm3), then Saudi Arabia crude oil (0.6-0.8 cal/s.cm3). Furthermore water also found to have the highest dielectric loss ranged between (7-8) and lowest wavelength in the range (1.5-2) followed by all the oil samples which had constant and identical dielectric properties in the range (0-0.5) and wavelength of 8 Cm. from the experimental results of this research, one can conclude that although both water and crude oils can interact effectively with microwave radiation yet the mechanism may not be the same since oils were shown to have very low dielectric loss. Another observation is different crude oils have different heating pattern, there this had to be into consideration when studying crude emulsion or refining. Keywords: microwave dehydrator, heating petroleum oils, dielectric of petroleum, and dielectric of water.
The heating pattern of the microwave dehydrator for treating petroleum crude ...eSAT Publishing House
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology
Dielectric properties of Ni-Al nano ferrites synthesized by citrate gel methodIJERA Editor
Ni–Al ferrite with composition of NiAlxFe2-xO4 (x=0.2, 0.4 0.6, and 0.8, ) were prepared by citrate gel method. The Dielectric Properties for all the samples were investigated at room temperature as a function of frequency. The Dielectric constant shows dispersion in the lower frequency region and remains almost constant at higher frequencies. The frequency dependence of dielectric loss tangent (tanδ) is found to be abnormal, giving a peak at certain frequency for mixed Ni-Al ferrites. A qualitative explanation is given for the composition and frequency dependence of the dielectric loss tangent.
Over five years research and development experience in silicon wafer based solar photovoltaics. Specialized in characterization of silicon wafer and solar cells. Developed and establish methods for the measurement of diffusion length in higher lifetime wafers, front and back surface recombination in silicon solar cell.
Synthesis and Characterization of Cadmium Substituted Copper Nano – FerritesIJERA Editor
A series of copper substituted cadmium nano ferrites with the compositional formula Cu 1-x CdxO4(where x=0.1, 0.3. 0.5 and 0.7) were prepared by the Citrate gel auto combustion technique and sintered at 873 K for 4 hr. The X-ray difractrograms (XRD) clearly exhibited the existence of single phase cubic spinel structure. The crystallite size was found in the range of 10-42nm. The values of lattice parameter were calculated by using d spacing. The calculated values of lattice parameter and X-ray density were explained on the basis of composition
Transcript Format for MDU (Maharshi Dayanand University) RohtakAnkita Sharma
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University address:
R-3 branch, 1st Floor, Parisha Sadan, Gate no 2, MDU Rohtak.
Dielectric properties of Ni-Al nano ferrites synthesized by citrate gel methodIJERA Editor
Ni–Al ferrite with composition of NiAlxFe2-xO4 (x=0.2, 0.4 0.6, and 0.8, ) were prepared by citrate gel method. The Dielectric Properties for all the samples were investigated at room temperature as a function of frequency. The Dielectric constant shows dispersion in the lower frequency region and remains almost constant at higher frequencies. The frequency dependence of dielectric loss tangent (tanδ) is found to be abnormal, giving a peak at certain frequency for mixed Ni-Al ferrites. A qualitative explanation is given for the composition and frequency dependence of the dielectric loss tangent.
Over five years research and development experience in silicon wafer based solar photovoltaics. Specialized in characterization of silicon wafer and solar cells. Developed and establish methods for the measurement of diffusion length in higher lifetime wafers, front and back surface recombination in silicon solar cell.
Synthesis and Characterization of Cadmium Substituted Copper Nano – FerritesIJERA Editor
A series of copper substituted cadmium nano ferrites with the compositional formula Cu 1-x CdxO4(where x=0.1, 0.3. 0.5 and 0.7) were prepared by the Citrate gel auto combustion technique and sintered at 873 K for 4 hr. The X-ray difractrograms (XRD) clearly exhibited the existence of single phase cubic spinel structure. The crystallite size was found in the range of 10-42nm. The values of lattice parameter were calculated by using d spacing. The calculated values of lattice parameter and X-ray density were explained on the basis of composition
Transcript Format for MDU (Maharshi Dayanand University) RohtakAnkita Sharma
Step-by-step procedure to get transcripts from MDU:
1. Write an application to the assistant registrar of R-3 branch, MDU asking for transcript for xyz purpose. Mention your registration number.
2. Get payment receipt of Rs 1600 (for 1 set of transcript) from Cashier.
3. Go to R-3 branch of MDU and meet the assigned executive for your department and college. (Meet Mr Satendar if you are a Btech from Apeejay/ITM)
4. Present your Application (with payment receipt) and transcript copy (with original and photocopied mark sheet) for verification.
5. If the transcript is correct, take University letter head from Superintendent and get your transcript printed on it.
6. Get the transcript (printed on letter head) and your application signed by Superintendent and Registrar.
7.Put your transcript in the envelop and get it stamped from the dispatch table.
8. Submit the application with payment receipt to the executive.
Documents you need to carry with you:
1. Transcript copy(attached is the format, enter your details and cross-check for errors).
2. Original Mark sheets.(sem 1-8)
3. Photo copy of Mark sheet (Sem 1-8)
4. A-4 size envelope.
University address:
R-3 branch, 1st Floor, Parisha Sadan, Gate no 2, MDU Rohtak.
Dr. Srinivasa C.V. is a Dean IPR & Professor in the Department of Mechanical Engineering, GM Institute of Technology, Davangere, Karnataka, India-577006. His research interests focus on Sandwich Panel, natural fibre composites, laminated composites, finite element method, stress analysis and experimental methods. He has international journal publications and Book Chapters in the fields of natural fibre composites, laminated composites, finite element method and experimental buckling and free vibration studies on skew plates and panels. He has published over 40 peer reviewed research papers in various international journals.
For More Details you can visit the following link:
https://scholar.google.co.in/citations?hl=en&user=G78aA1QAAAAJ&view_op=list_works
https://www.researchgate.net/profile/Srinivasa_Chikkol
http://www.gmit.ac.in/gmitnew/13/me4.pdf
Dr A Srivani
Physics Doctorate
VVIT ENGINEERING COLLEGE
Teaching: Engineering Physics and Engineering Mechanics
Awards: Best Presentation, Best Young scientist and Best paper Award.
1. Avanish Pratap Singh, Ph.D. (Curriculum Vitae) Page 1 of 4
EDUCATION
Ph.D. (Thesis title: Electrical and optical properties of conducting polymers for application in EMI
shielding) in Physics, Delhi University, India; (Awarded: May 2015)
M.Sc. in Physics with first division, Aligarh Muslim University, Aligarh, India; (2007)
B.Sc. (Hons.) Physics with first division, Aligarh Muslim University, Aligarh, India; (2005)
EXPERIENCE
Bhagini Nivedita College, University of Delhi, Delhi, India
Assistant Professor (ad-hoc) in department of physics (9th
August 2014 ‒ continue)
CSIR-National Physical Laboratory, New Delhi, India
Senior project fellow in Material physiocs and Engineering Devision (12th
February 2013 ‒ 8th
August
2014)
Shivaji College, University of Delhi, Delhi, India
Assistant Professor (ad-hoc) in department of physics (21 August 2010 ‒ 6 December 2012)
CSIR-National Physical Laboratory, New Delhi, India
Project Assistant in Material physics and Engineering Devision (18 March 2008 ‒ 20 August 2010)
RESEARCH INTERESTS
Carbon Based Materials (Graphene, Carbon Nanofibers, Nanotubes, Nanostructured)
Polymer based composites (Polyaniline, Polypyrrole, PEDOT)
Nanostructures (Ferrite Nanoparticles, Nanocomposites, Nanostructured, Hybrid structure)
KEY SKILLS
Excellent knowledge of measurements techniques and equipment, in particular UV- Visible
spectroscopy, Fourier transform infrared spectroscopy, Thermogravimetric analysis, Differential
scanning calorimetry & XRD, Four-probe conductivity measurement, Vector Network Analyzer
(VNA) for microwave shielding Properties.
Expert in synthesis of graphene oxide, reduced graphene oxide, ferrites (Fe3O4, γ-Fe2O3, ferrofluid) and
various conducting polymers such as polyaniline, polypyrrole
Excellent problem-solver, with a record and achievements in innovative research and skills in
problem solving.
Strong communication and presentation skills (oral and written).
Ability to manage own time and to work as part of an interdisciplinary project team.
RECOGNITION
Feb 2013: “ARYABHATTA SAMMAN -2013” has been awarded by Vigyan Bharti
(Swadeshi Science Movement of India), New Delhi for research work on presenting
best innovations/quality product
Oct 2011: Article cited by “Nature India” as shield against polluting radiation
June 2008: CSIR-NET (National fellowship), Govt. Of India; in Physical Sciences
BOOK CHAPTERS
1. Avanish Pratap Singh, Monika Mishra, S.K. Dhawan: Conducting Multiphase Magnetic Nanocomposites for
Microwave Shielding Application. Nanomagnetism, e-book edited by Professor Julian Maria Gonzalez
Estevez, 02/2015: chapter Conducting Multiphase Magnetic Nanocomposites for Microwave
Shielding Application: pages 246-277; One Central Press UK., ISBN: ISBN (eBook): 9781910086056
Dr. Avanish Pratap Singh Rajput
avanishpratap@gmail.com Tel: +91 11 45609401 (O); Fax: +91 11 25726938 (O)
23, SRSA, NPL Colony, New Rajinder Nagar, ND - 110060.; Tel: +91 8588819244 (H)
https://www.researchgate.net/profile/Dr_Avanish_Singh2
http://scholar.google.co.in/citations?user=bL64zHUAAAAJ&hl=en
2. Avanish Pratap Singh, Ph.D. (Curriculum Vitae) Page 2 of 4
REFEREED JOURNAL PUBLICATIONS
Total # of Papers: 34
(Includes 1 Book Chapters)
Total # of Citations: ~305 with an H-index of 9 and i10-index 9 (Google Scholar)
(Includes Citation Numbers for Some Highly Cited Papers *)
Publications include three in Carbon (Impact Factor: 6.16), one in Nanotechnology(Impact Factor:
3.67), one in AIP Advances (Impact Factor: 1.4), six in Journal of Materials Chemistry A (Impact
Factor: 6.62), one in Journal of Materials Chemistry C (Impact Factor: 6.62), one in Dalton
Transanctions (Impact factor: 4.09), one in Physical Chemistry Chemical Physics (Impact factor:
4.19), eight in RSC Advances (Impact Factor: 3.70), one in Journal of Alloys and Compounds
(Impact Factor: 2.72), two in Materials Chemistry and Physics (Impact Factor: 2.12)
2015
[34]. Avanish Pratap Singh, Monika Mishra, Daniel P. Hashim, T.N. Narayanan, Myung Gwan Hahm, Pawan Kumar,
Jaya Dwivedi, Garima Kedawat, Ankit Gupta, Bhanu Pratap Singh, Amita Chandra, Robert Vajtai, S.K. Dhawan,
Pulickel M. Ajayan, Bipin Kumar Gupta. Probing the engineered sandwich network of vertically aligned carbon
nanotube-reduced graphene oxide composites for high performance electromagnetic interference shielding applications
Carbon 2015;85:79-88. (ISSN: 0008-6223) (I.F. 6.16)
[33] Seema Joona, Rakesh Kumara, Avanish Pratap Singh, Rajni Shukla, S. K. Dhawan
Lightweight and solution processible thin sheets of poly (o-toluidine)-carbon fiber-novolac composite for
EMI shielding RSC Advances. 2015. (ISSN: 2046-2069) (I.F. 3.7)Accepted Manuscript
[32] Microwave shielding properties of Co/Ni decorated single walled carbon nanotubes
B. P. singh, Devendra Kumar Saket, Avanish Pratap Singh, Santwana Pati, Tejendra Kumar Gupta, Vidya
Nand Singh, Sanjay R Dhakate, Dhawan SK, Ravinder K Kotnala and Rakesh Behari Mathur Journal of
Materials Chemistry A (ISSN: 1944-8244), 2015, Accepted Manuscript
DOI: 10.1039/C5TA02381E,
[31] EM shielding effectiveness of Pd-CNTs-Cu nanocomposite buckypaper ,Anil Kumar, Avanish Pratap
Singh, Saroj Kumari, Avanish Kumar Srivastava, Sivaiah Bathula, SK Dhawan, P.K. Dutta and Ajay Dhar
Journal of Materials Chemistry A (ISSN: 1944-8244), 2015, Accepted Manuscript
DOI: 10.1039/C4TA05749J,
[30] Poly (o-anisidine)-carbon fiber based composites as an introductory material for EMI shielding
Rakesh Kumar1,2,3, Seema Joon1,3, Avanish Pratap Singh, B. P. Singh2, S. K. Dhawan1* Advaned
materials letter Accepted Manuscript
[29]. Farukh M, Avanish Pratap Singh, Dhawan SK. Enhanced electromagnetic shielding behavior of
multi-walled carbon nanotube entrenched poly (3,4-ethylenedioxythiophene) nanocomposites. Composites
Science and Technology. 2015;114(0):94-102. . (ISSN: 0266-3538)
[28]. Sambyal P, Singh AP, Verma M, Gupta A, Singh BP, Dhawan S. Designing of
MWCNT/Ferrofluid/Flyash multiphase composite as safeguard for electromagnetic radiation. (ISSN: 0976-
3961)
[27]. Joon S, Kumar R, Avanish Pratap Singh, Shukla R, Dhawan SK. 2015 Fabrication and microwave
shielding properties of free standing polyaniline-carbon fiber thin sheets. Materials Chemistry and
Physics. (0). (ISSN: 0254-0584)
[26]. Ishpal Rawal, O. S. Panwar, R. K. Tripathi, Avanish Pratap Singh, S. K. Dhawan, A. K. Srivastava
Effect of helium gas pressure on dc conduction mechanism andEMI shielding properties of nanocrystalline
carbon thin films
Materials Chemistry and Physics 03/2015; · 2.13 Impact Factor . (ISSN: 0254-0584)
[25]. Mishra S, S AK, Avanish Pratap Singh, Nigam AC. Conformally Polyaniline Coated Multiwalled
Carbon Nanotubes: Synthesis and Characterization. Indian Journal of Applied Research. 2015;5(5):19-
23. (ISSN: 2249-555X) Impact factor 3.6241
[24]. Rakesh Kumar, Seema Joon, Avanish Pratap Singh, B P Singh, S K Dhawan 2015Self-Supported
Lightweight Polyaniline Thin Sheets for Electromagnetic Interference Shielding with Improved Thermal
and Mechanical Properties, American Journal of Polymer Science. 11/2015; 2015(51A):28-39. (ISSN:
2163-1352)
3. Avanish Pratap Singh, Ph.D. (Curriculum Vitae) Page 3 of 4
[23]. Tripathi P, Prakash Patel CR, Dixit A, Avanish Pratap Singh, Kumar P, Shaz MA, et al. High yield
synthesis of electrolyte heating assisted electrochemically exfoliated graphene for electromagnetic
interference shielding applications. RSC Advances. 2015;5(25):19074-81. (ISSN: 2046-2069) (I.F. 3.7)
[22] Verma, M., Avanish Pratap Singh, Sambyal, P., Singh, B. P., Dhawan S K, and Choudhary, V., 2015,
Barium ferrite decorated reduced graphene oxide nanocomposite for effective electromagnetic interference
shielding: Physical Chemistry Chemical Physics. 17 (3), 1610-1618 (ISSN: 1463-9076) (I.F. 4.19)
[21] Reshi HA, Avanish Pratap Singh, Pillai S, Yadav RS, Dhawan SK, Shelke V. 2015 Nanostructured
La0.7Sr0.3MnO3 compound for effective Electromagnetic Interference shielding in X-band frequency range.
Journal of Materials Chemistry C. 3 (4), 820-827. (ISSN: 2050-7526) (Citation: 0) (I.F. 6.62)
2014
[20]. Avanish Pratap Singh, Mishra M, Sambyal P, Gupta B K, Singh B P, Chandra A and Dhawan S K
2014 Encapsulation of γ-Fe2O3 decorated reduced graphene oxide in polyaniline core-shell tubes as an
exceptional tracker for electromagnetic environmental pollution Journal of Materials Chemistry A 2
3581-93 (ISSN: 1944-8244) (Citation: 12) (I.F. 6.62)
[19] Gupta, A., Avanish Pratap Singh, Varshney, S., Agrawal, N., Sambyal, P., Singh, B. P., Pandey, Y.,
Singh, V. N., Gupta, B. K., and Dhawan, S. K., 2014, New Insight into Shape-Controlled Synthesis and
microwave shielding properties of iron oxide covered with reduced graphene oxide: RSC Advances.
2014;4(107):62413-22 (ISSN: 2046-2069) (I.F. 3.7)
[18]. Kumar A, Avanish Pratap Singh, Kumari S, Dutta P K, Sk D and Dhar A 2014 Polyaromatic
hydrocarbon based carbon copper composites for suppression of electromagnetic pollution Journal of
Materials Chemistry A 2 16632-16639 (ISSN: 1944-8244) (I.F. 6.62)
[17]. Mishra M, Avanish Pratap Singh, Singh B P, Singh V N and Dhawan S K 2014 Conducting
Ferrofluid: A High-performance Microwave Shielding Material Journal of Materials Chemistry A 2
13159-13168 (ISSN: 1944-8244) (Citation: 3) (I.F. 6.62)
[16]. Kumar M, Pasha SK, Shibin Krishna TC, Avanish Pratap Singh, Kumar P, Gupta BK, et al. Facile
synthesis and photoluminescence spectroscopy of 3D-triangular GaN nano prism islands. Dalton
Transactions. 2014 43 11855-11861. (ISSN: 1477-9234) (I.F. 4.09)
[15]. Teotia S, Singh B P, Elizabeth I, Singh V N, Raman R, Avanish Pratap Singh, kumar g, Dhawan S K,
Srivastava A and Mathur R B 2014 Multifunctional, Robust, Light Weight, Free Standing MWCNT/
Phenolic Composite Paper as Anode for Lithium Ion Batteries and EMI Shielding Material RSC Advances
4 33168-33174 (ISSN: 2046-2069) (I.F. 3.7)
[14]. Mishra M, Avanish Pratap Singh, Singh B P and Dhawan S K 2014 Performance of a
nanoarchitectured tin oxide@reduced graphene oxide composite as a shield against electromagnetic
polluting radiation RSC Advances 4 25904-11 (ISSN: 2046-2069) (Citation: 2) (I.F. 3.7)
[13]. Mishra M, Avanish Pratap Singh, Sambyal P, Teotia S and Dhawan S K 2014 Facile synthesis of
phenolic resin sheets consisting expanded graphite/γ-Fe2O3/SiO2 composite and its enhanced
electromagnetic interference shielding properties Indian Journal of Pure & Applied Physics 52 478-85
(ISSN: 0975-1041) (I.F. 0.8)
[12]. Kumari S, Kumar A, Avanish Pratap Singh, Garg M, Dutta P K, Dhawan S K and Mathur R B 2014
Cu-Ni alloy decorated graphite layers for EMI suppression RSC Advances 4, 23202-23209 (ISSN: 2046-
2069) (I.F. 3.7)
[11]. Kumar R, Avanish Pratap Singh, Chand M, Pant RP, Kotnala RK, Dhawan SK, et al. Improved
microwave absorption in lightweight resin-based carbon foam by decorating with magnetic and dielectric
nanoparticles. RSC Advances 2014;4(45):23476-84. (ISSN: 2046-2069) (I.F. 3.7)
[10]. Sambyal P, Avanish Pratap Singh, Verma M, Farukh M, Singh B P and Dhawan S K 2014 Tailored
polyaniline/barium strontium titanate/expanded graphite multiphase composite for efficient radar
absorption RSC Advances 4 12614-24 (ISSN: 2046-2069) (Citation: 8) (I.F. 3.7)
[9]. Gupta T K, Singh B P, Singh V N, Teotia S, Avanish Pratap Singh, Elizabeth I, Dhakate S R, Dhawan
S K and Mathur R B 2014 MnO2 decorated graphene nanoribbons with superior permittivity and excellent
microwave shielding properties Journal of Materials Chemistry A 2 4256-63 (ISSN: 1944-8244)
(Citation: 5) (I.F. 6.6)
2013
4. Avanish Pratap Singh, Ph.D. (Curriculum Vitae) Page 4 of 4
[8]. Avanish Pratap Singh, Gupta B K, Mishra M, Govind, Chandra A, Mathur R B and Dhawan S K 2013
Multiwalled carbon nanotube/cement composites with exceptional electromagnetic interference shielding
properties Carbon 56 86‒96 (ISSN: 0008-6223) (Citation: 22)
[7]. Ashokkumar M, Narayanan N T, Gupta B K, Reddy A L M, Avanish Pratap Singh, Dhawan S K,
Chandrasekaran B, Rawat D, Talapatra S, Ajayan P M and Thanikaivelan P 2013 Conversion of Industrial
Bio-Waste into Useful Nanomaterials ACS Sustainable Chemistry & Engineering 1 619-26 (ISSN:
2168-0485) (Citation: 2)
[6]. Mishra M, Avanish Pratap Singh and Dhawan S K 2013 Expanded graphite-nanoferrite-fly ash
composites for shielding of electromagnetic pollution Journal of Alloys and Compounds 557 244-51
(ISSN: 0925-8388) (Citation: 10) (I.F. 2.7)
[5]. Mishra M, Avanish Pratap Singh and Dhawan S 2013 Utilization of Fly Ash-A Waste Byproduct of
Coal for Shielding Application J. Environ. Nanotechnol 2 74-82 (ISSN:2279-0748)
2012
[4]. Avanish Pratap Singh, Garg P, Alam F, Singh K, Mathur R B, Tandon R P, Chandra A and Dhawan S
K 2012 Phenolic resin-based composite sheets filled with mixtures of reduced graphene oxide, γ-Fe2O3 and
carbon fibers for excellent electromagnetic interference shielding in the X-band Carbon 50 3868‒75
(ISSN: 0008-6223) (Citation: 43) (I.F. 6.16)
[3]. Anoop Kumar S, Avanish Pratap Singh, Saini P, Khatoon F and Dhawan S K 2012 Synthesis, charge
transport studies, and microwave shielding behavior of nanocomposites of polyaniline with Ti-doped γ-
Fe2O3 Journal of Material Science 47 2461-71 (ISSN: 1573-4803) (Citation: 10) (I.F. 2.1)
2011
[2]. Avanish Pratap Singh, Mishra M, Chandra A and Dhawan S K 2011
Graphene oxide/ferrofluid/cement composites for electromagnetic
interference shielding application Nanotechnology 22 465701 (Citation: 34)
Cited by Nature India DOI:10.1038/nindia.2011.161; Cited by Down to Earth
December 31, 2011. (ISSN: 1361-6528) (I.F. 3.68)
[1]. Avanish Pratap Singh, S. A K, Amita Chandra and Dhawan S K.2011
Conduction mechanism in Polyaniline-flyash composite material for
shielding against electromagnetic radiation in X-band & Ku band Aip
Advances 1 022147 (ISSN: 2158-3226) (Citation: 18) (I.F. 1.7)
PERSONAL INFORMATION
Date of birth: June, 30, 1986
Nationality: Indian
Gender: Male
Marital status: Married (Spouse; Dr. Monika Mishra)
God gift: Two babygirl
REFERENCES
Reference I Reference II Reference III
Dr. S. K. Dhawan, Ph.D.
Scientist ‒ G
CSIR-National Physical Laboratory,
New Delhi ‒ 110012
+91 9810620202 (M)
Dr. Bipin Kumar Gupta, Ph.D
Senior scientist
CSIR-National Physical Laboratory,
New Delhi ‒ 110012
+91 9891740533 (M)
Dr. Amita Chandra, Ph.D
Associate Professor
Department of Physics
University of Delhi, Delhi
+91 9810727849 (M)
Email: skdhawan@mail.nplindia.org Email: bipinbhu@yahoo.com Email: amitach1@yahoo.com
Place: New Delhi
Date: June 6, 2015 (Avanish Pratap Singh Rajput)