Maciej Haras

558 citations

20 papers · 439 indexed · h-index 9

Co-authors: T. Skotnicki S. Monfray J.F. Robillard Emmanuel Dubois Jean‐Marie Bluet Pierre‐Olivier Chapuis G. Cywiński Janusz Smulko
Topics: Thermal Radiation and Cooling Technologies (9 papers)Thermal properties of materials (8 papers)Advanced Thermoelectric Materials and Devices (8 papers)
Cited by: Materials Chemistry Civil and Structural Engineering Electrical and Electronic Engineering
Journals: Applied Physics Letters Nano Energy Nanoscale
Partner nations: Poland France Sweden

In The Last Decade

Maciej Haras

17 papers receiving 430 citations

Peers

Replace Qin Sun with:

Qin Sun China

Zhanpeng Guo China

Rachsak Sakdanuphab Thailand

Yue Xiao United States

Yunchen Dou China

Athorn Vora–ud Thailand

Sungjin Park South Korea

Honggang Zhang China

Taneli Juntunen Finland

Maciej Haras relative to Qin Sun China Qin Sun's profile →

Citations per field

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Qin Sun · 1×

×1.4 335/236

MC

×1.3 161/126

EEE

×1.3 139/111

CSE

×1.0 111/114

BE

×1.0 65/63

ME

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Countries citing papers authored by Maciej Haras

Since Specialization

Citations

This map shows the geographic impact of Maciej Haras's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Maciej Haras with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Maciej Haras more than expected).

Fields of papers citing papers by Maciej Haras

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Maciej Haras. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Maciej Haras. The network helps show where Maciej Haras may publish in the future.

Co-authorship network of co-authors of Maciej Haras

This figure shows the co-authorship network connecting the top 25 collaborators of Maciej Haras. A scholar is included among the top collaborators of Maciej Haras based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Maciej Haras. Maciej Haras is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

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20 of 20 papers shown

#	Work	Indexed citations
1	Temperature and electron concentration dependences of 1/f noise in Hg_1−xCd_xTe – evidence for a mobility fluctuations mechanism 2025 ·Nanoscale ·(unknown),(unknown),(unknown),Alexander Kazakov,(unknown),(unknown),(unknown),Maciej Haras,T. Wójtowicz,G. Cywiński,W. Knap,Sergey Rumyantsev	0
2	Dichroic absorption of aligned graphene-augmented inorganic nanofibers in the terahertz regime 2024 ·Applied Materials Today ·(unknown),Aleksandra Przewłoka,K. Stelmaszczyk,Maciej Haras,(unknown),Aleksandra Krajewska,Roman Ivanov,Irina Hussainova,Joachim Oberhammer,T. Skotnicki,Zygmunt Mierczyk,Dmitri Lioubtchenko	1
3	A graphene/h-BN MEMS varactor for sub-THz and THz applications 2023 ·Nanoscale ·(unknown),Maciej Haras,Aleksandra Przewłoka,Aleksandra Krajewska,(unknown),Mateusz Słowikowski,(unknown),(unknown),Zygmunt Mierczyk,T. Skotnicki,(unknown)	0
4	Heat dissipation in partially perforated phononic nano-membranes with periodicities below 100 nm 2022 ·APL Materials ·(unknown),(unknown),Maciej Haras,Emmanuel Dubois,S. Monfray,Jean‐Marie Bluet,Pierre‐Olivier Chapuis,J.F. Robillard	3
5	Further IoT market expansion owing to innovative thermal energy harvesting 2022 ·Maciej Haras,(unknown),T. Skotnicki	0
6	The atomic layer deposition (ALD) synthesis of copper-tin sulfide thin films using low-cost precursors 2022 ·Nanotechnology ·(unknown),Zbigniew Starowicz,Adam Zięba,Bogusława Adamczyk‐Cieślak,Robert P. Socha,(unknown),(unknown),Maciej Haras,(unknown)	5
7	Piezoelectric Response and Substrate Effect of ZnO Nanowires for Mechanical Energy Harvesting in Internet-of-Things Applications 2022 ·Materials ·(unknown),Maciej Haras,(unknown),(unknown),(unknown),(unknown),Dzmitry S. Kharytonau,T. Skotnicki	11
8	Integrated CNT Aerogel Absorbers for Sub-THz Waveguide Systems 2022 ·2022 IEEE/MTT-S International Microwave Symposium - IMS 2022 ·(unknown),James Campion,(unknown),(unknown),Aleksandra Przewłoka,(unknown),Maciej Haras,Albert G. Nasibulin,Dmitri Lioubtchenko	2
9	Organic Vapor Sensing Mechanisms by Large-Area Graphene Back-Gated Field-Effect Transistors under UV Irradiation 2022 ·ACS Sensors ·(unknown),(unknown),(unknown),(unknown),Aleksandra Krajewska,(unknown),(unknown),G. Cywiński,Maciej Haras,Sergey Rumyantsev,Lars Österlund,Janusz Smulko,(unknown)	19
10	Highly efficient absorption of THz radiation using waveguide-integrated carbon nanotube/cellulose aerogels 2022 ·Applied Materials Today ·(unknown),(unknown),James Campion,(unknown),Aleksandra Przewłoka,Aleksandra Krajewska,Maciej Haras,Albert G. Nasibulin,Joachim Oberhammer,Dmitri Lioubtchenko	7
11	Pulsed UV-irradiated Graphene Sensors for Ethanol Detection at Room Temperature 2021 ·2021 IEEE Sensors ·(unknown),(unknown),(unknown),(unknown),Aleksandra Krajewska,G. Cywiński,Maciej Haras,Sergey Rumyantsev,Janusz Smulko,(unknown)	2
12	Pulse mode of operation – A new booster of TEG, improving power up to X2.7 – to better fit IoT requirements 2019 ·Nano Energy ·Maciej Haras,(unknown),S. Monfray,T. Skotnicki	9
13	Thermoelectricity for IoT – A review 2018 ·Nano Energy ·Maciej Haras,T. Skotnicki	290
14	Native-oxide limited cross-plane thermal transport in suspended silicon membranes revealed by scanning thermal microscopy 2017 ·Applied Physics Letters ·(unknown),Jean‐Marie Bluet,(unknown),Maciej Haras,J.F. Robillard,Pierre‐Olivier Chapuis	13
15	Fabrication of Thin-Film Silicon Membranes With Phononic Crystals for Thermal Conductivity Measurements 2016 ·IEEE Electron Device Letters ·Maciej Haras,(unknown),(unknown),(unknown),J.F. Robillard,S. Monfray,T. Skotnicki,Emmanuel Dubois	21
16	Toward quantitative modeling of silicon phononic thermocrystals 2015 ·Applied Physics Letters ·(unknown),Maciej Haras,J.F. Robillard,S. Monfray,T. Skotnicki,Emmanuel Dubois	13
17	Thermoelectric energy conversion: How good can silicon be? 2015 ·Materials Letters ·Maciej Haras,(unknown),(unknown),J.F. Robillard,S. Monfray,T. Skotnicki,Emmanuel Dubois	21
18	Unconventional Thin-Film Thermoelectric Converters: Structure, Simulation, and Comparative Study 2014 ·Journal of Electronic Materials ·Maciej Haras,(unknown),S. Monfray,J.F. Robillard,T. Skotnicki,Emmanuel Dubois	8
19	Phononic engineering of silicon using “dots on the fly” e-beam lithography and plasma etching 2014 ·Microelectronic Engineering ·(unknown),Maciej Haras,J.F. Robillard,S. Monfray,T. Skotnicki,Emmanuel Dubois	12
20	A wide-band modeling of DC-DC two-transistor flyback converter. 2011 ·Marek Turzyński,Maciej Haras,(unknown),(unknown)	2

About Maciej Haras

Maciej Haras is a scholar working on Civil and Structural Engineering, Bioengineering and Materials Chemistry, having authored 20 papers that have together received 439 indexed citations. Recurring topics across this work include Thermal Radiation and Cooling Technologies (9 papers), Thermal properties of materials (8 papers) and Advanced Thermoelectric Materials and Devices (8 papers). The work is most often cited by research in Materials Chemistry (335 citations), Civil and Structural Engineering (139 citations) and Electrical and Electronic Engineering (161 citations). Maciej Haras has collaborated with scholars based in Poland, France and Sweden. Frequent co-authors include T. Skotnicki, S. Monfray, J.F. Robillard, Emmanuel Dubois, Jean‐Marie Bluet, Pierre‐Olivier Chapuis, G. Cywiński, Janusz Smulko, Aleksandra Krajewska and Sergey Rumyantsev. Their work appears in journals such as Applied Physics Letters, Nano Energy and Nanoscale.

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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