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Battery, Battery Materials

<2024년 신간> 리튬이차전지 건식전극(Dry Battery Electrode)공정 기술개발 동향 및 전망


 

 

 

전기차 자체는 온실가스를 배출하지 않지만 전기차 제조 과정에서 탄소를 배출하고 환경을 파괴한다는 비난을 받아왔다. 대표적인 것이 전기차 제조 원가의 약 40%를 차지하는 배터리다.

 

배터리 제조 공정 중 특히 NMP를 건조하고 회수하는데 상당한 전기 에너지를 소모하게 되는데 이는 온실가스 배출의 원인이 된다. 일례의 연구 결과에 의하면 습식 제조 과정에서 용매 건조로 인해 1kWh 42kg CO2가 발생한다고 하며, 대기중으로 환경오염물질인 휘발성유기화합물(VOC, Volatile Organic Compound)을 배출하기도 한다. 이에 비해 건식 전극은 용매를 건조하고 회수하는 과정이 없어 전기 에너지 소모가 적고 VOC를 배출하지 않기 때문에 친환경적인 공정이라고 할 수 있다.

 

에너지밀도를 높이기 위해서는 전극이 두꺼운 >100㎛ 이상의 후막 전극이 필요하다. 현재의 습식 공정에서는 용매와 소재 간 층 분리 현상으로 인해 후막 전극을 만들기 어렵다. 활물질, 도전재, 바인더 등 각 소재의 비중이 서로 다르기 때문에 두껍게 코팅하면 바인더와 도전재가 전극 표면으로 떠오른다. 습식 공정에서는 약 100㎛ 이상의 두께로 전극을 코팅하기 어렵다.

 

건식 공정을 이용하면 이 같은 층 분리 현상 없이 활물질-도전재-바인더를 골고루 분산할 수 있기 때문에 후막 전극을 만들 수 있고 이를 통해 배터리의 용량과 에너지 밀도를 끌어 올릴 수 있다.

 

Tesla 2019년 건식 전극 기술을 보유한 수퍼캐퍼시터 기업인 Maxwell Technologies를 인수하였고 이듬해인 2020 9 Battery Day에서 건식 전극을 도입하겠다고 발표했다. Tesla 2년 만인 2021Maxwell UCAP에 재매각했지만 건식 전극 기술을 확보할 수 있었다. 전문가들이 직접 테슬라 4680 배터리를 입수해 분석한 바에 따르면 이 배터리에는 음극에만 건식 전극을 적용하고 양극은 기존 습식 전극을 채택한 것으로 나타났다.

 

Tesla가 왜 아직 양극에 건식 전극 공정을 적용하지 못하고 있는지에 대해서는 알려진 바 없으나, 다만 건식 전극 공정의 수율(양품률)이 낮아 대량 생산할 정도 수준에 이르지 못한 것 아니냐는 분석이 나오고 있다. 4680 배터리의 낮은 수율이 사이버트럭 생산에까지 영향을 미치고 있다는 외신이 전해지기도 했다.

 

건식 코팅 공정의 원리는 간단하지만 실제 이를 구현하는 데는 각 단계마다 상당한 난제들이 존재한다. 용매를 쓰지 않고 활물질, 도전재, 바인더를 균일하게 믹싱하는 것부터가 쉽지 않다. 점성이 없는 분말을 집전체에 고르게 도포하는 것은 더욱 어렵다. 수율이 낮으면 생산 원가가 상승하게 된다. 비용을 낮추기 위해 건식 전극을 도입했는데 오히려 비용 상승 요인으로 작용할 수 있는 것이다.

 

Tesla 이외에 현재 국내외 기업들은 P/P 규모의 건식공정을 개발한다고 발표하고 있으나, 초기에 생산되는 46파이 원통형 배터리들은 모두 습식 공정으로 생산될 것으로 예상되고 있다. LG엔솔이 ’24 4분기 P/P 규모 생산하는 4680 배터리는 양극과 음극에 모두 습식을 적용하며, 이 배터리는 테슬라에 공급될 예정이다. 최근 LG엔솔은 ’24 4분기에 오창 에너지플랜트내에 건식 전극공정 P/P라인 구축을 완료할 예정이며 ’28년부터 적용할 예정이다. 최근 발표한 삼성SDI, SK, 파나소닉, CATL, 금양도 건식 전극기술을 개발 중이다.

 

이외에 독일의 폭스바겐은 ’23 6월 독일 인쇄기기 전문업체인 Koenig & Bauer와 함께 건식 전극 공정을 개발한다고 밝힌 바 있다. 폭스바겐은 ’27년까지 산업 생산에 나설 계획이다. 폭스바겐과 Koenig & Bauer가 어떻게 건식 전극을 개발하고 있는지는 정확히 알려지지 않았다.

 

건식공정은 건조공정이 불필요해 에너지 비용을 30% 절감할 수 있으며, 건조에 필요한 면적도 50% 줄일 수 있다며 건식공정을 적용한 4680 배터리는 이론적으로 LFP 배터리보다 저렴해질 수 있지만, 아직 기술 개발이 성공적이지 못한 상태라고 한다.

 

건식 공정의 도입은 리튬이차전지 제조를 위한 탄소중립형 공정으로써 매우 잠재력을 가지고 있으며, 건식 전극 기술의 상용화는 배터리 제조 비용 절감과 동시에 성능 향상에 큰 기여를 할 것으로 기대되며 현재까지 대량 양산화에 성공한 기업은 없지만, 주요 기업들이 기술 개발에 박차를 가하고 있는 만큼 머지않아 건식 전극공정이 트렌드가 될 가능성은 매우 높아 보인다. 또한 건식 전극 공정의 개발은 차세대 전지인 전고체 전지 제조 공정에 적용될 수 있으며 실제로 해외 및 국내에서 전고체 전지에 대한 관심이 높아지고 있으며 양산화에 대한 계획이 수립되고 있다.

 

본 리포트는 이차전지 산업의 탄소중립형 공정 개발의 필요성, 기존 습식공정의 이슈, 현재 건식공정의 이슈 등 기술적인 내용과 최근 이차전지 관련 업체 건식 전극 공정 개발 동향과 전고체 전지 개발 동향에 대한 많은 업체들의 정보를 제공하여 건식공정의 현재와 가까운 미래의 현황을 전망하고자 하였다.

 

 

 

본 보고서의 Strong Point

 

건식전극 공정에 대한 배경 및 개발에 관한 풍성한 기술내용 수록

 

② 건식전극 공정 종류의 자세한 설명 및 전극 공정 이슈 내용 수록

 

③ 건식 공정과 습식 공정의 장단점을 물론 전지 적용까지의 상세한 비교내용 수록

 

④ 차세대 전지인 전고체전지의 건식 전극 공정 적용에 대한 상세 기술내용 수록

 

⑤ 국내외 산업계의 전극 공정, 소재, 장비업체의 개발 동향에 대한 상세한 정보 수록

 

  ⑥ 국내외 기업의 건식전극 공정관련 특허 리스트 및 주요 특허 분석 수록

 

⑦ 건식전극관련 국가별 연구지원 프로젝트 및 주요 내용 수록

 

⑧ 건식전극 공정에 관한 주요 리서치사의 시장 전망 수록

 

 

 

 

 

[전극 제조용 건식공정과 습식 공정의 차이]


 

 

 

[주요 Dry coating 기술 종류 및 비교]



 

 

 

[건식 복합양극 제조방법]

 


 

 

 

 

 

 

목 차

 

 

 

1.     리튬이차전지 후막 전극용 건식 전극 공정

 

 

 

1.1 이차전지 산업 탄소 중립형 공정 개발 필요성······························································································· 9

 

1.1.1 탄소 중립 규제로 인한 전기차 수요 확대···························································································· 9

 

1.1.2 탄소배출 제한 및 내연기관 차량 판매 금지 계획·········································································· 10

 

1.1.3 전기차 전환 계획 및 이차전지 업체 수직계열화············································································ 11

 

1.1.4 탄소 중립 규제 대응을 위한 이차전지 산업 이슈·········································································· 12

 

1.1.5 이차전지 전극 공정, 공정 비용 및 에너지 소비·············································································· 13

 

 

 

1.2 리튬이차전지 후막 전극 개발 필요성··············································································································· 14

 

1.3 습식 기반 전극 제조 공정 이슈·························································································································· 15

 

1.4 건식 전극(DBE) 공정 배경 및 개발·················································································································· 16

 

1.4.1 건식 전극 기술의 역사적, 기술적 진보······························································································· 17

 

1.4.2 Dry film 기술 주요 개발 역사·················································································································· 18

 

1.4.3 건식 전극 기술 : 습식 코팅의 한계 극복··························································································· 19

 

1.4.4 건식 공정 및 바인더 개발 : 논문 및 특허수···················································································· 20

 

1.4.5 건식 공정 및 바인더 개발 : 특허 분석······························································································· 21

 

1.4.6 압출 기술을 적용한 전극 제조················································································································ 22

 

1.4.7 압출 및 용융 가공········································································································································ 23

 

1.4.8 용융 압출 : 용매 vs. 무용매 적용 차이점·························································································· 24

 

1.4.9 건식 전극 적용 : Tesla 음극····················································································································· 25

 

1.4.10 건식 전극 적용 : Tesla 양극··················································································································· 26

 

1.4.11 건식 전극 적용 : 복합 양극··················································································································· 27

 

1.4.12 건식 전극 적용 : Pre-lithiation(사전 리튬화)··················································································· 28

 

1.4.13 배터리 바인더 특성 : 7가지 종류 비교····························································································· 29

 

1.4.14 건식공정에 사용되는 바인더 종류······································································································· 31

 

1.4.15 건식공정에 사용되는 바인더 특성······································································································· 32

 

1.4.16 수성 바인더(PTFE,PAA) vs. PVDF :성능 및 장단점 비교······························································ 33

 

1.4.17 PTFE 바인더 적용········································································································································ 34

 

 

 

1.5 건식 전극 공정 종류················································································································································ 35

 

1.5.1 건식 전극용 Dry coating 기술 선정······································································································ 35

 

1.5.2 주요 Dry coating 기술 종류 및 비교···································································································· 37

 

1.5.3 건식 혼합 및 코팅········································································································································ 40

 

1.5.4 건식전극 vs.습식전극의 전기화학적 거동 비교················································································ 41

 

1.5.5 건식 전극 제조기술의 LIB 적용 시 각각의 특성············································································· 42

 

1.5.6 Free standing electrode 기술···················································································································· 43

 

1.5.7 Direct Calendaring 기술······························································································································ 47

 

1.5.8 Brush application 기술································································································································· 50

 

1.5.9 Electrostatic spraying 기술························································································································· 51

 

1.5.10 용융 증착 기술············································································································································· 53

 

1.5.11 분말 압축 기술············································································································································· 55

 

1.5.12 용융 압출 기술············································································································································· 56

 

 

 

1.6 건식 전극 공정 이슈················································································································································ 57

 

1.6.1 건식공정 기술의 기술적 허들·················································································································· 57

 

1.6.2 LIB 제조 시 건식 공정의 과제················································································································· 58

 

1.6.3 PTFE의 전기적 특성······································································································································ 59

 

 

 

1.7 건식 공정 vs. 습식 공정 비교····························································································································· 60

 

1.7.1 습식공정과 건식공정 제조 기술의 비교······························································································ 60

 

1.7.2 건식 vs. 습식 공정기술의 전지 특성 비교························································································· 61

 

1.7.3 습식 공정의 단점··········································································································································· 62

 

1.7.4 습식 공정 대체 option의 장단점············································································································ 63

 

1.7.5 건식공정 기술 도입의 장점······················································································································· 64

 

1.7.6 건식공정 기술 도입의 장점(속도 성능)································································································ 66

 

1.7.7 건식공정 기술 도입의 장점(이온 채널)································································································ 67

 

1.7.8 건식공정 기술 도입의 장점(낮은 비용)································································································ 68

 

1.7.9 건식공정 기술 도입의 장점(기계 특성)································································································ 70

 

1.7.10 건식 vs. 습식 특성 비교: 양극, 음극에 적용·················································································· 71

 

1.7.11 전식 전극의 셀 성능································································································································· 72

 

1.7.12 LIB용 건식 전극의 제조 및 특성 분석······························································································· 73

 

1.7.13 건식 전극 적용 : (LFP + CNT + PTFE) 양극····················································································· 74

 

1.7.14 건식 전극 적용 : (NCM622 + PVDF) 양극······················································································· 75

 

1.7.15 건식 vs. 습식 공정기술의 종합비교···································································································· 76

 

 

 

1.8 PTFE 섬유화(Fibrilization)····································································································································· 77

 

1.8.1 PTFE fibrilization(섬유화) 반응····················································································································· 77

 

1.8.2 PTFE fibrilization 현상··································································································································· 78

 

1.8.3 PTFE fibrilization 적용··································································································································· 79

 

1.8.4 PTFE fibrilization에 미치는 영향 인자··································································································· 81

 

1.8.5 PTFE 바인더의 부작용·································································································································· 82

 

1.8.6 PTFE 바인더의 부작용 차단 : 흑연 표면 코팅·················································································· 83

 

1.8.7 PTFE 섬유화 방법에 의한 흑연 음극 제조·························································································· 85

 

1.8.8 PTFE 변형 소재 개발···································································································································· 86

 

1.8.9 PTFE 기반 전지의 혁신적 기술과 시스템···························································································· 87

 

 

 

2. 차세대 이차전지 (전고체전지) 건식 전극 공정

 

 

 

2.1 국내외 산업계 전고체 전지 개발 동향············································································································ 89

 

2.1.1 전고체전지의 종류 및 각 시스템 구성································································································ 89

 

2.1.2 고에너지밀도 LIB를 위한 설계 및 솔루션·························································································· 90

 

2.1.3 건식 복합양극 제조 방법··························································································································· 19

 

2.1.4 해외 전고체전지 개발 동향······················································································································· 92

 

2.1.5 국내 전고체전지 개발 동향······················································································································· 93

 

 

 

2.2 전고체전지 건식 전극 공정 적용 필요성 (습식 공정 이슈)··································································· 94

 

 

 

2.3 전고체전지 건식 전극 공정 적용 사례············································································································ 95

 

2.3.1 국내외 기업 전고체전지 건식 공정 적용 사례················································································· 95

 

2.3.2 국내외 논문 전고체전지 건식 공정 적용 사례················································································· 96

 

2.3.3 PTFE 적용 Li-S 전지····································································································································· 97

 

2.3.4 PTFE 적용 무코발트(LNMO) 전지··········································································································· 98

 

2.3.5 PTFE 적용 전고체전지(황화물, 산화물, 할로겐화물)······································································ 100

 

2.3.6 PTFE 적용 전고체전지용 고체전해질 막 제조················································································· 101

 

2.3.7 고에너지밀도 LIB를 위한 설계 및 솔루션························································································ 102

 

2.3.8 건식공정 적용 고체전지(고분자 고체전해질 적용)······································································· 104

 

2.3.9 건식공정 적용 고체전지(400 Wh/kg)·································································································· 106

 

2.3.10 건식공정 적용 고체전지(에너지밀도 비교 외)·············································································· 108

 

3. 업체별 개발 동향

 

3.1 국내외 산업계 건식 전극 공정 개발 동향··································································································· 114

 

3.1.1 해외 건식 공정 개발 동향······················································································································ 114

 

3.1.2 국내 건식 공정 개발 동향······················································································································ 115

 

3.1.3 건식 전극 공정에 위협적인 요소········································································································· 119

 

3.1.4 건식 전극 공정을 둘러싼 장점 및 단점 요소················································································· 120

 

 

 

3.2 국내 업체 개발 동향·············································································································································· 121

 

3.2.1 Lxx······································································································································································ 121

 

3.2.2 Sxx······································································································································································ 123

 

3.2.3 SK On································································································································································ 124

 

3.2.4 Cxxx··································································································································································· 125

 

3.2.5 Dxx····································································································································································· 127

 

 

 

3.3 해외 업체 개발 동향·············································································································································· 129

 

3.3.1 Tesla·································································································································································· 129

 

3.3.2 Sakuu································································································································································ 132

 

3.3.3 Axxx··································································································································································· 135

 

3.3.4 Lixxxx································································································································································· 138

 

3.3.5 Amxxx······························································································································································· 143

 

3.3.6 Poxxxx······························································································································································· 146

 

3.3.7 Draxxx······························································································································································· 149

 

3.3.8 Zxxxx·································································································································································· 150

 

3.3.9 Daxxx································································································································································· 151

 

3.3.10 Chexxxx·························································································································································· 152

 

3.3.11 Huaxxx···························································································································································· 153

 

3.3.12 Baosheng Energy Technology()······································································································· 156

 

3.3.13 Li Yuanheng()·········································································································································· 157

 

 

 

3.4 장비 업체 개발 동향·············································································································································· 158

 

3.4.1 xxxx······························································································································································· 158

 

3.4.2 xxx································································································································································· 159

 

3.4.3 PNT···································································································································································· 160

 

3.4.4 xxxxxx··························································································································································· 161

 

3.4.5 나인테크·························································································································································· 162

 

3.4.6 GIxxxxx······························································································································································ 163

 

3.4.7 KAxxxx······························································································································································· 164

 

3.4.8 Shanghai Lianjing Automation Technology()··············································································· 165

 

3.4.9 TOB New battery·········································································································································· 166

 

3.4.10 TMAxxxx························································································································································ 167

 

3.4.11 Shenzhenxxxx·············································································································································· 170

 

3.4.12 Huacaixxxxx·················································································································································· 171

 

3.4.13 ATExxxx·························································································································································· 172

 

3.4.14 EIRxxx······························································································································································ 174

 

3.4.15 Fraunhofer IWS············································································································································· 175

 

 

 

3.5 학교/연구기관 개발 동향····································································································································· 177

 

3.5.1 한국에너지기술연구원······························································································································· 177

 

3.5.2 연세대······························································································································································ 180

 

3.5.3 고려대······························································································································································ 183

 

3.5.4 UNIST································································································································································ 186

 

3.5.5 성균관대·························································································································································· 189

 

3.5.6 가천대······························································································································································ 190

 

3.5.7 Fraunhofer ISIT·············································································································································· 193

 

3.5.8 Karlsruhe Institute of Technology (KIT)······························································································· 194

 

3.5.9 Dry Coating Forum 학회··························································································································· 195

 

 

 

4. 특허 분석

 

4.1 해외 산업계 건식 공정 개발 특허··················································································································· 198

 

4.1.1 해외 건식 공정 개발 특허 List·············································································································· 198

 

4.1.2 Maxwell Technologies································································································································ 199

 

4.1.3 Fraunhofer IWS············································································································································· 204

 

4.1.4 Tesla·································································································································································· 206

 

4.1.5 Lxxx···································································································································································· 213

 

4.1.6 Draxxx······························································································································································· 216

 

4.1.7 Anxxxx······························································································································································· 218

 

 

 

4.2 국내 산업계 건식 공정 개발 특허··················································································································· 219

 

4.2.1 LG화학, LG엔솔 특허 List·························································································································· 219

 

4.2.2 삼성 SDI·························································································································································· 233

 

4.2.3 SK On································································································································································ 237

 

4.2.4 xxxx······························································································································································· 240

 

4.2.5 xxxx······························································································································································· 244

 

4.2.6 xxxx······························································································································································· 245

 

4.2.7 한국xxx기술원··············································································································································· 248

 

 

 

 

 

5. 국가별 연구 프로젝트

 

5.1 미국 DOE 프로젝트················································································································································ 252

 

5.1.1 Oxxx··································································································································································· 252

 

5.1.2 Nxxx··································································································································································· 255

 

 

 

5.2 EU 프로젝트······························································································································································· 257

 

5.2.1 ELIxxx································································································································································· 257

 

5.2.2 HOxxxx······························································································································································ 258

 

5.2.3 Batxxx································································································································································ 259

 

 

 

5.3 한국 국책 프로젝트················································································································································ 260

 

5.3.1 산업통자원부 주관······································································································································ 260

 

5.3.2 교육부 주관··················································································································································· 264

 

5.3.3 과학기술부 주관·········································································································································· 265

 

5.3.4 기획재정부 주관·········································································································································· 266

 

 

 

6. 시장 전망(리서치사 전망)

 

6.1 SNE Research 전망·················································································································································· 267

 

6.2 EV Tank 전망······························································································································································ 271

 

6.3 ESP Analysis 전망····················································································································································· 273

 

6.4 Industry ARC 전망···················································································································································· 274

 

6.5 QY Research 전망···················································································································································· 275

 

6.6 Verified Market Reports 전망······························································································································ 277